Browsing by Subject "mice"
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Item Cross-Bridge Kinetics of Cardiac Myofibrils Carrying Myopathy-Causing Mutation(2007-05-01) Dumka, DishaDumka, Disha., Cross-bridge kinetics of cardiac myofibrils carrying myopathy-causing mutation. Doctor of Philosophy (Biochemistry and Molecular Biology), May 2007, 98 pp., 8 tables, 23 illustrations, and bibliography: 102 titles. Familial hypertrophic cardiomyopathy is a disease characterized by left ventricular hypertrophy and myofibrillar disarray. It is caused by mutations in sarcomeric proteins, including the ventricular isoform of myosin regulatory light chain (RLC). We have focused on one particular mutation of RLC-substitution of glutamic acid (E) at position 22 for lysine (K). The E22k mutation is located in the RLC Ca2+ -binding site. Earlier work has demonstrated that phosphorylation and Ca2+ binding are significantly altered by the E22K mutation. Studies with transgenic (Tg) mice have demonstrated that E22K-RLC mutation increases Ca2+ sensitivity of myofibrillar ATPase activity and steady-state force. However, the mechanisms for the E22K-mutated myocardium that could potentially trigger hypertrophy as seen in human patients harboring this mutation remain unclear. In order to better understand the impact of the E22K-RLC mutation on cardiac muscle contraction, we have studied the three primary parameters which best reflect the mechanism of actomyosin cross-bridge cycling during force generation. Tau one and two (t1 and t2) are the mechanical parameters which measure the dissociation and rebinding time of myosin heads from actin, respectively. Tau three (t3) is an enzymatic parameter which measures the dissociation time of ADP from the active site of myosin. For this study single-turnover contraction experiments were performed on Tg (wild-type and E22K) and non-Tg mouse cardiac myofibrils. Tau one (t1) was statistically greater in Tg-m (Tg-E22K) than in controls indicating that the E22K mutation slows down the rate of cross-bridge dissociation. However, the in-vitro binding experiments showed no difference in binding properties of T g-m vs. Tg-wt myosin to fluorescently labeled actin suggesting that this was a function of genetic manipulation rather than an intrinsic change to muscle. The slight increase in t1 was probably cause by myofibrillar disarray. Tau two (t2) was shorter in Tg-m than in non-Tg, but the same as in Tg-wt indicating that the decrease in Tg hearts was probably caused by replacement of the mouse RLC for the human isoform in the transgenic mice. Tau three (t3) was the same in Tg-m and in controls indicating that the E22K mutation had no effect time of ADP dissociation from the myosin active site. Thus the E22K mutation did not affect the three parameters that were used to study the cross-bridge kinetics of the cardiac muscle from the transgenic mice carrying the E22K-RLC mutation. On extrapolating the results of this study with transgenic mice to humans, it is likely that the change in cross-bridge kinetics is not the primary trigger through which E22K-RLC mutation affects muscle contraction. However one possible limitation of this study is that the Tg-E22K mice did not completely recapitulate the human phenotype of E22K-mutation. Overall, in this study, we successfully followed the mechanical and the enzymatic events in a small population of cross-bridges (~400) in contracting Tg-m cardiac myofibrils. The characterization of motion of a small population of cross-bridges is important because the different steps of cross-bridge cycle do not become obscured and thus it becomes easy to detect any changes in the cross-bridge cycle.Item EFFECTS OF SHORT-TERM PHYTOESTROGEN SUPPLEMENTATION ON THE BEHAVIOR OF MALE AND FEMALE MICE(2013-04-12) Sidhu, AkramPurpose: Plant-derived, non-steroidal compounds called phytoestrogens have been widely used as substitutes for estrogen in anticipation of estrogen-like therapeutic effects without producing the side effects associated with estrogen therapy. Human and animal data are still controversial regarding the beneficial effects of such compounds and whether they are differential based on the gender/sex of the subjects. This study investigated the effects of short-term phytoestrogen intake on the age-associated behavioral changes in the young, middle and old mice of both sex. Methods: Separate groups of young (6 months), middle (12 months) and old (24 months) male and female C57BL/6J mice were placed on either a phytoestrogen-free (PF) diet (N=15-17) or a phytoestrogen-rich (PR) diet containing (350-650 mg/kg phytoestrogens (N=16-19) for a period of 16 weeks. After 5 weeks on the diets, the mice were subjected to a series of behavioral tests to measure spontaneous activity (locomotor activity), anxiety (elevated plus maze, EPM), and cognitive function (water maze and active avoidance test). Results: PR mice exhibited increased spontaneous activity when compared to the PF mice, regardless of sex and especially in their rearing activity. In the EPM task, female mice spent less time in the open arms when compared to their males counterpart. At 24 months, PR male mice spent less time in open arms than their age-matched controls. In the water maze, PR mice performed worse than the PF mice which was particularly noticeable in the old mice, however there was no effect of the diet in the males. No major effects of diets were found in the active avoidance paradigm. Conclusions: Overall, short-term supplementation with phytoestrogens did not seem to affect anxiety levels or cognitive, though it may adversely impact spatial learning and memory in female mice, especially of old age.Item Function and Regulation of the Natural Killer Cell Receptor 2B4 (CD244)(2005-05-01) Vaidya, Swapnil V.; Porunelloor A. Mathew; Richard Easom; Hriday DasThe purpose of these studies was to investigate two issues related to the natural killer (NK) cell receptor, 2B4 (CD244) – its in vivo function and transcriptional regulation. In previous in vitro studies, ligation of 2B4 with a monoclonal antibody enhanced the cytotoxicity of NK and CD8 T cells against various tumor cell lines, indicating that 2B4 is an activating receptor. To study the role of 2B4 in vivo, 2B4 deficient (2B4-/-) mice were used. The initial characterization of the 2B4-/- mice indicate a thymic developmental defect with an increase in the immature CD4-/CD8- population in the thyme of female but not male mice. NK cells from the 2B4-/- mice were impaired in activation by IL-2 as compared to wild type NK cells. These results suggest a role of 2B4 in lymphoid development. The in vivo role of 2B4 in tumor rejection was studied in a mouse tumor model in which melanoma cells were injected intravenously and pulmonary metastases enumerated 14 days later. The murine melanoma cell line, B16, was stably transfected with CD48, the counter-receptor for 2B4. Using CD48+ and CD48- B16 cells in tumor experiments indicated that 2B4 functioned as an inhibitory receptor. In addition, a gender-specific role of 2B4 in the rejection of B16 melanoma cells was discovered. 2B4-/- male mice cleared B16 cells more efficiently than wild type male mice, while female 2B4-/- mice were impaired in controlling tumor growth as compared to wild type female mice. In vitro and in vivo studies indicate a complex role for NK cells in the mechanism of this gender effect. Several studies have shown that the expression of 2B4 is upregulated during viral infections and under certain cytokine stimulation. Previously, it has been shown activator protein-1 (AP-1) plays an important role in the transcription of the 2B4 gene. In this study an Ets transcription factor was shown to upregulate the transcription of the gene. This element functions in an AP-1 dependent manner. Stimulation of surface 2B4 down-regulates its own expression by decreasing the activity of the Ets element in the 2B4 promoter. These studies identify a role of 2B4 in lymphoid development and tumor rejection in vivo. The gender-specific defect in 2B4 knock-out mice implicates its role in lupus. The transcriptional studies provide insights into the regulation of 2B4 gene.Item Genetic Modulation of β-Amyloid Neurotoxicity and Protection by Nicotinic Agents(2007-05-01) Martin, Shelley E.; Basu, Alakananda; Forster, Michael; Singh, MeharvanMartin, Shelley E., Genetic Modulation of β-Amyloid Neurotoxicity and Protection by Nicotinic Agents. Master of Science (Pharmacology and Neuroscience), May, 2007, 53 pp., 7 figures, 2 tables, bibliography, 95 titles. Β-amyloid1-42 (Aβ42) has been implicated in the pathogenesis of Alzheimer’s disease (AD); however, the amount of this peptide in the brain does not correlate well with the presence or severity of AD. This project tested the hypothesis that individual differences exist in susceptibility to Aβ42 neurotoxicity arising from the differences in the expression of α7 nicotinic acetylcholine receptors α7 nACHRs). This hypothesis was tested in primary neuronal cultures derived from inbred mouse strains which differ in expression of α7 nAChRs. Also, the ability of nicotinic agents to modulate Aβ42 toxicity was examined. Significant strain differences in susceptibility to Aβ42 toxicity were found; however, these were not related to levels of α7 nAChRs. Additionally, strain differences were found in the ability of α7-selective partial agonist, an α7-selective antagonist and a α4β2 nAChR-selective antagonist to protect against this toxicity. Inbred strains of mice may be useful in uncovering the pathophysiology of AD.Item Investigating the Role of Stress in a Murine Model of Asthma(2008-07-01) Deshmukh, Aniket; Harlan Jones; P. Mathew; Jerry SimeckaThe mechanisms by which stress can exacerbate asthma are still unknown. The purpose of this study was to examine the immunological links between stress controllability and asthma pathogenesis. Our studies reveal specificity of stress control and immune activation resulting in hyper-inflammatory reactions in response to allergic airway challenge. We anticipate that these studies can serve as a translational piece to facilitate clinical studies of stress and asthma prevalence. The purpose of this project was to establish a murine model of stress controllability and demonstrate the impact of stress on the development of immune allergic airway hypersensitivity as a major feature of asthma. I hypothesized that given the ability to control the degree of stress would translate into less severe allergic airway hypersensitivity. We also hypothesized that distinct changes in immune responses generated in response to uncontrolled stress would reflect the extent of airway hypersensitivity. Mice were exposed to daily regimen of uncontrollable stress, controllable stress or no stress concurrently with allergen exposure. Behavioral disposition to stress was monitored in conjunction with evaluation of severity of asthma and immune status. Our results demonstrate that exerting control over stress conditions leads to distinct changes in immunological status corresponding with positive behavioral responses and less disease severity. We anticipate that our studies will facilitate application of stress management in control of immune status as a biomarker for asthma progression.Item Lifelong vs. Late Life Tocopherol on Learning and Memory in Mice(2004-05-01) McDonald, Shelley R.; Michael Forster; Glenn DillonMcDonald, Shelley R., Lifelong vs. late life tocopherol on learning and memory in mice. Doctor of Philosophy (Biomedical Sciences), May, 2004, 132 pp., 1 table, 14 figures, bibliography, 122 titles. The purpose of these studies was to determine if vitamin E supplementation, a well-studied antioxidant, could improve the cognitive functions of old mice either by preventing age-dependent impairments or reversing age-related dysfunction. Cellular oxidative stress is believed to be a causal factor in senescence, and the brain appears to be particularly susceptible to oxidative damage because of a relatively high rate of reactive oxygen species generation without commensurate levels of antioxidant defenses. If oxidative stress indeed plays a role in age-related brain dysfunction, then it can be predicted that experimental interventions capable of lowering oxidative stress would either prevent or restore function. This was tested using apolipoprotein E-deficient mice, which have an increased susceptibility to neuronal oxidative damage, maintained on 3 different doses (2 mg/kg, 20 mg/kg, or 200 mg/kg/day) of dl-α-tocopheryl acetate (vitamin E) via supplemented food pellets from 8 weeks of age throughout behavioral testing when 6 or 18 mo of age. A separate experiment used wild type mice 24 months of age to examine whether or not a combination of vitamin E (123 mg/kg/day) with coenzyme Q10 (200 mg/kg/day) which leads to higher tissue levels of vitamin E, could improve brain functions in old mice. Mice were tested on multiple behavioral tasks that required utilization of various components of memory and learning, as well as sensorimotor testing. The highest dose of vitamin E prevented the decline of spatial memory in old apolipoprotein E-deficient mice, but did not prevent age-related impairments in learning and memory for discriminated escape. When old wild type mice were treated with the combined vitamin E and coenzyme W10, the mice learned and remembered to avoid a preemptive shock significantly more than old mice treated with vitamin E or coenzyme Q10 alone. A followup experiment with higher doses of coenzyme Q10 alone (250 or 500 mg/kg/day) resulted in no cognitive improvements. No treatments improved sensorimotor performance.Item Molecular Basis for 2B4-CD48 Interactions(2001-08-01) Huynh, Van T.; Mathew, Porunelloor A.; Goldfarb, Ronald; Das, HridayHuynh, Van T., Molecular Basis for 2B4-CD48 Interactions. Master of Science, Molecular Biology and Immunology, August 2001, 93 pp., 3 tables, 19 illustrations, bibliography, 51 titles. Natural killer cells are lymphocytes that play a role against cancer and viral infections. 2B4 is a membrane glycoprotein expressed on natural killer cells. In the present study we characterized 2B4 from mice strains BALB/c, 129/svj and A.CA. Nucleotide and peptide analysis revealed that polymorphyic residues in 2B4 are located in the variable domain. My second project was to determine the amino acids involved in the binding between 2B4 and CD48. Twelve mutations were made in human 2B4 to disrupt their interaction. In the last part of the study, an attempt has been made to elucidate the role of tyrosine and threonine amino acids found in the novel tyrosine motifs (TxYxxI/V) that reside in the cytoplasmic domain.Item Molecular Cloning and Regulation of Expression of an NK Cell Receptor(2001-07-01) Medina, Miguel Angel; Porunelloor Mathew; Rafael Alvarez-Gonzales; Neeraj AgarwalNatural killer (NK) cells are large granular lymphocytes derived from bone marrow. They form the first line of defense against virally infected and tumor cells. Unlike B and T cells, they are not MHC restricted therefore do not require prior antigen stimulation (1-4). NK cell functions include producing various cytokines such as interferon gamma (IFNγ), tumor necrosis factor alpha (TNFα), and granular-macrophage colony stimulating factor (GM-CSF) and cytotoxicity (5,6). A number of cell surface molecules have been identified, cloned and characterized that modulate NK cell recognition and activation by target cells (1). Most of these molecules are also expressed on other leukocytes. NK cell function is regulated by the balance of the positive and negative signaling through these receptors (3, 7-10). In the past attention has primarily focused on major histocompatibility complex (MHC) recognizing receptors that are mostly inhibitory (11). It is through these inhibitory receptors that levels of MHC molecules and associated peptides are monitored. Cells that have lost the expression of MHC class I molecules or have altered peptides-class I complexes are not able to transmit an inhibitory signal to NK cells and are consequently killed. Members of the CD2 subset of receptors play a major role in lymphocyte functions and do not recognize MHC molecules. The signaling lymphocyte activation molecule, SLAM (CD150), a member of the CD2 subset, is expressed on T cells and B cells. SLAM regulates T cell activation and production of immunoglobulins by B cells (12,13). 2B4 is a member of the CD2 subset and is expressed on NK cells as well as other leukocytes (14, 15). 2 B4 is a surface molecule implicated in the activation of NK cell-medicated cytotoxicity (15-17). Human 2B4 is a 60-70 kDA glycoprotein surface molecule found on all NK cells and a small subset of T cells that exhibit NK-like activity. CD48 has been identified as the high affinity ligand for 2B4 and implicates a broader role for 2B4 in immune regulation (18, 19). Recent reports have demonstrated the importance 2B4 and the functional role 2B4 plays in immune regulation. In X-linked lymporoliferative (XLP) disease NK cells can not be activated through surface 2B4 (20-23). The molecular adaptor protein, SLAM-associated protein or SH2 domain containing adaptor molecule (SAP/SH2D1A) is associates with cytoplasmic tail of 2B4 or SLAM (24, 25). Defective signaling via 2B4 and SLAM may contribute to the pathogenesis of X-linked lymphoproliferative disease due to mutations in SAP. The cytoplasmic domain of 2B4 contains four novel tyrosine motifs (TxYxxV/I) (14, 15). SLAM, a close relative of 2B4, also contains these novel tyrosine motifs. The signaling mechanism for 2B4 remains unclear. Along with other members of the CD2 subset 2B4 also localizes to chromosome 1. The genes that encode the CD2 family of receptors are locatedon human chromosome at 1q21-24 (24, 26-30). The murine genes for 2B4, CD48, Ly49, Ly108, and CD84 are located on the syntenic region of the long arm of the chromosome 1 (30-33). The exon arrangement for 2B4 is consistent with other CD2 subset members and consists of an exon per domain for the leader sequence, V-like domain, C2-like domain, and the transmembrane domains (27, 34-37). Differential exon usage leads to splice variants of the receptors, which complicates understanding the functional relevance between the cytoplasmic domains between receptors. Both murine 2B4 and SLAM demonstrates splice variants that alter the number of novel tyrosine motifs within the cytoplasmic domains (14, 34, 38). The murine 2B4 gene consists of 9 exons with one exon dedicated to each leader sequence, V-like, C2-like, and transmembrane domains. The total gene size is approximately 27 kilobases with the first intron consisting of 16 kilobases. Variable exon usage gives rise to two isoforms of 2B4, 2B4-L and 2B4-S, in the mouse (38). Four exons encode the 2B4-L cytoplasmic domain, giving rise to four tyrosine motifs. 2B4-S is identical to the 5’end of 2B4-L, differing only at the 3’ end in a portion of the cytoplasmic domain and the 3’untranslated sequence. 2B4-S is the product of the same first five exons in 2B4-L with the usage of a novel exon at the C-terminal. Although splice variants exists there Is no direct biochemical evidence to support their expression. In vitro analysis of the m2B4 variants suggest potential signaling differences. Murine 2B4 variants and mutants were transfected into a rat NK cell line, RNK-16. Interestingly, the two forms of 2B4 had opposing functions (39). Murine 2B4 is expressed on all NK cells, a subset of T cells, dendritic epidermal T cells, and monocytes (40). Expression levels of 2B4 can be elevated by incubation with interleukin-2 (IL-2). Engagement of 2B4 can be elevated by incubation with interleukin-2 (IL-2). Engagement of 2B4 with anti-2B4 monoclonal antibody (mAb) causes secretion of interferon-γ, increased 2B4 expression, and elevated cytotoxicity (41). Characterization of how 2B4 and its related receptors are expressed is critical to the understanding not only the receptors’ biology but also NK cell biology. My first project will focus on mastering the techniques involved in the isolation and characterization of genes. Previously two genomic clones were isolated from 129 Sv/J mouse liver, 531 and 532. The first clone, 531, has been fully characterized and revealed to be 2B4. 532 has been partially characterized and revealed to the related form of mouse 2B4. In order to determine the function of 532 on mouse NK cells, 532 cDNA has to be isolated. I attempted to isolate 532 cDNA through PCR using previously isolated clones from the BALB/c cDNA library. My next aim was to isolate 532 genomic DNA for automated sequencing. I used this data to design primers specific for 532 and isolate the 532 cDNA through RT-PCR. 532 will be the topic discussed in chapter 2 and chapter 3 will discuss the 2B4 activated sequencing. I used this data to design primers specific for 532 and isolate the 532 cDNA through RT-PCR. 532 will be the topic discussed in chapter 2 and chapter 3 will discuss the 2B4 activated response molecule. The final portion of my thesis will focus on the isolation of the 2B4 activated response molecule (2ARM). Human peripheral blood NK cells were isolated incubated with interleukin-2 or C1.7. C1.7 is a monoclonal antibody that specifically recognizes human 2B4. RNA was extracted from these NK cells at various time points and used for RT-PCR to monitor the expression levels of 2B4. Aside from the expression of human 2B4, the expression of a 160 base pair transcript was also detected. Sequencing analysis revealed this transcript to be novel. I screened a human NK cDNA library constructed by Dr. J. Houchins (R & D System, Minneapolis, MN) using this 160 base pair transcript as a probe. Upon isolation of 2ARM cDNA, functional analysis can be performed to determine its role on human NK cells.Item Neurobehavioral and biochemical consequences of chronic, low-dose methamphetamine exposure in male and female mice(2022-08) Davis, Delaney L.; Sumien, Nathalie; Huang, Ren-Qi; Gatch, Michael B.; Phillips, Nicole R.; Schreihofer, Derek A.; Ma, RongAlthough prescription psychostimulants are effective in reducing attention deficit hyperactivity disorder (ADHD) symptomology, misuse of these drugs can pose serious risks such as potential abuse, dependence, and/or neurotoxicity. Of particular concern is that young adults have the highest prevalence of prescription stimulant misuse, with almost 10% of college students admitting to using amphetamine (e.g. Adderall) or methylphenidate (e.g. Ritalin) products. Despite these drugs being widely used for therapeutic and recreational use, the long-term effects of prescription stimulants have not been systematically evaluated in controlled clinical trials. Therefore, it is critical to conduct this research because young adults may be a vulnerable, at-risk population to the potential adverse consequences of long-term amphetamine use. This dissertation research evaluates the biochemical and behavioral consequences of chronic exposure of the prototypical psychostimulant, methamphetamine (METH), in a rodent model. It is hypothesized that repeated doses of METH, within the therapeutic dosing range used in a clinical setting, will induce neurotoxicity through the interplay of biological mechanisms of oxidative stress, glutamate excitotoxicity, neuroinflammation and epigenetic alterations and increase susceptibility to addiction that will be exacerbated by aging processes. Overall, the body of results showed short-term alterations in brain biochemistry and behavioral function, that do not necessarily persist past 5 months after METH treatment. In conclusion, this dissertation highlights the importance of long-term studies in addressing prescription stimulant misuse in an adult population to better understand the safety of these widely used and prescribed psychostimulants.Item PERICYTE AND CAPILLARY MAY DECLINE DEPENDING ON THE AGING PROCESS IN MICE(2022-05) Omoba, Oluwaseun E.; Jin, Kunlin; Rickards, Caroline A.; Mathis, Keisa W.Purpose. In this study, we explore the effects of aging on pericytes and capillaries using mice. Pericytes are important components of the neurovascular unit and function as contractile cells around the walls of capillaries. They play many important roles in the brain, such as blood vessel formation, cerebral brain blood flow, maintenance of the blood-brain barrier, and regulation of immune cell entry into the CNS. Dysfunction of pericytes contribute to a wide range of illnesses that result in cognitive impairments such as cerebrovascular disease, stroke, Alzheimer's disease (AD), and other neurological disorders. Aging has been studied and shown to be an established risk for vascular dysfunction that affects the integrity of the neurovascular unit. Furthermore, studies have shown significant reductions in pericyte density during age-related disorders, but these studies are few. Most nutrients in the brain are supplied by capillaries, and because pericytes are embedded on capillaries, studying their patterns and effects may lead to a better understanding of the pathophysiology and preliminary triggers of age-related disorders. In this study, we explore whether both pericyte and capillary numbers are affected in the adult brain of mice as they age. Methods. All experiments were performed on young (3 month old; n=3) and old (20-23 month old; n=3) C57BL/6 male mice. To identify pericytes and capillaries for quantification, immunohistochemistry and immunofluorescence were used. Pericytes were stained using the biomarker PDGFrβ and capillaries were stained using Lectin. CA1, CA2, CA3, and DG sites were chosen for quantification in the hippocampus, and layers I-VI in the somatosensory cortex of each mouse. Confocal imaging was used to study and quantify the population of PDGFrβ and lectin-positive cells. T-tests were performed to compare the number of pericytes in the hippocampus and somatosensory cortex of the two groups of mice (young and old). Results. Old mice exhibited significantly lower capillary (via lectin) and pericyte (via PDGFrβ) numbers than young mice (p < 0.0001) in the hippocampus. There was no significant reduction in the number of pericyte (p = 0.1448) and capillary (p = 0.0967) in the somatosensory cortex. Pericytes that expressed PDGFrβ were only classified as such when colocalized to capillaries. To record the number of pericytes embedded on capillaries, the number of PDGFrβ + Lectin that expressed a "bump-on-a-log" morphology was also quantified and showed a significant reduction in the hippocampus (p < 0.0001) and somatosensory cortex (p = 0.0110) with age. Conclusion. Since cerebrovascular dysfunction plays a vital role in the development of cognitive impairment disorders, understanding the aging patterns of neurovasculature cells such as pericytes may aid in the early prevention of age-related illnesses.Item Properties of a Human Metastatic Variant Lung Cancer Model(2003-05-01) Poirot, Julie E.; Mart Hart; Robert Wordinger; Rick KitsonPoirot, J. Properties of a Human Metastatic Variant Lung Cancer Model. Master of Science (Molecular Biology and Immunology). May 2003. 44 pp., 11 illustrations, 1 table, 39 bibliography titles. A model of non-small cell lung cancer (NSCLC) has been developed for screening and preclinical drug evaluation by implanting the A549 lung cancer cell line orthotopically into immunocompromised (SCID) mice. Aggressive metastatic sublines were then derived from metastases from the primary implant. The purpose of this project is to elucidate some of the cellular properties involved in the tumor aggressiveness of the metastatic variant cell lines. In vitro migration and invasion assays produced data showing no significant differences between the rates of migration or invasion of parental and metastatic sublines. In vivo tumor burden experiments, however, produced data showing significant differences in the numbers and sizes of metastatic tumors formed when the three cell lines were compared in SCID mice. RT-PCR analysis has indicated that there are differences in the mRNA levels of certain matrix metalloproteinases. The A549 parental cells have matrix metalloproteinase-2 (MMP-2) but not MMP-9, while both metastatic variants show MMP-9 mRNA but no MMP-2. Western blots and gelatin zymographies also confirm these findings. RT-PCR analysis and casein zymography experiments have also shown no differences in the message or activity of urokinase plasminogen activator *uPA0 among the cell lines. Multidrug resistance studies were done on the tumor cell lines in order to compare their resistance to various classes of antineoplastic drugs. These studies indicate that there is no significant difference in the resistance to doxorubicin or paclitaxel, but the parental cell line is substantially more resistant to cisplatin than either of the metastatic sublines.Item Selective Activation of D3 Dopamine Receptors Ameliorates DOI-Induced Head Twitching Accompanied by Changes in Corticostriatal Processing(MDPI, 2023-06-10) Estrada-Sanchez, Ana M.; Rangel-Barajas, Claudia; Howe, Andrew G.; Barton, Scott J.; Mach, Robert H.; Luedtke, Robert R.; Rebec, George V.D3 receptors, a key component of the dopamine system, have emerged as a potential target of therapies to improve motor symptoms across neurodegenerative and neuropsychiatric conditions. In the present work, we evaluated the effect of D3 receptor activation on the involuntary head twitches induced by 2,5-dimethoxy-4-iodoamphetamine (DOI) at behavioral and electrophysiological levels. Mice received an intraperitoneal injection of either a full D3 agonist, WC 44 [4-(2-fluoroethyl)-N-[4-[4-(2-methoxyphenyl)piperazin 1-yl]butyl]benzamide] or a partial D3 agonist, WW-III-55 [N-(4-(4-(4-methoxyphenyl)piperazin-1-yl)butyl)-4-(thiophen-3-yl)benzamide] five minutes before the intraperitoneal administration of DOI. Compared to the control group, both D3 agonists delayed the onset of the DOI-induced head-twitch response and reduced the total number and frequency of the head twitches. Moreover, the simultaneous recording of neuronal activity in the motor cortex (M1) and dorsal striatum (DS) indicated that D3 activation led to slight changes in a single unit activity, mainly in DS, and increased its correlated firing in DS or between presumed cortical pyramidal neurons (CPNs) and striatal medium spiny neurons (MSNs). Our results confirm the role of D3 receptor activation in controlling DOI-induced involuntary movements and suggest that this effect involves, at least in part, an increase in correlated corticostriatal activity. A further understanding of the underlying mechanisms may provide a suitable target for treating neuropathologies in which involuntary movements occur.Item T-Helper Cell Responses in Lungs After Immunization and Chronic Respiratory Disease; And Their Association With Pulmonary Inflammation(2001-05-01) Jones, Harlan P.; Simecka, Jerry; Dimitrijevich, S. Dan; Goldfarb, Ronald H.The purpose of these studies was to characterize T helper cell responses in the lungs of mice after immunization and chronic respiratory infection. CD4+ T cells were the major population of T cells resident in the lung in comparison to CD8+ T cells. Polyclonal activation of resident CD4+T cells produced abundant levels of IL-4 in comparison to IFN-γ, indicating that Th2 cells were the major sub-population of CD4+ T cells. In contrast, resident CD8+ T cells were the sole producer of IFN-γ by naïve T lymphocytes. Furthermore, the distribution of T cells was similar between BALB/c, C3H/HeN, C57BL/6 and DBA/2N strains of mice. However differences in the distribution of CD8+T cells, as well as the levels of IL-4 and IFN-y production produced by resident T cells were found between C57 and the other strains of mice tested. These results demonstrate that host genetic factors may be involved in determining host susceptibility to respiratory disease. Differences in the intensity of antigenic stimulation provoke changes in the type of T cell response generated. Intranasal immunization with influenza (FLU) vaccine antigen alone initiated solely an antigen-specific Th2-like response. In contrast, the addition of the potent mucosal adjuvant cholera toxin (CT) in combination with FLU antigen induced not only resident Th2 responses, but also induced antigen-specific Th1-like responses. This change corresponded with a dramatic increase in the number of CD4+ T cells in the lung. Thus, intense immunization of respiratory T cells enhanced resident T helper cell responses, but also promoted the activation of Th1 responses. Chronic respiratory infection also elicited changes in the resident population of T cells consistent with pulmonary inflammatory immune responses. At early stages of infection, CD4+, but not CD8+ T cells increased in number within inductive respiratory lymphoid tissues (lower respiratory nodes [LRNs]). Between day 7 and 14 however, there was a dramatic increase in the number of CD4+ T cells in the lung. Interestingly, CD8+ T cells also increased in the lungs, suggesting their activation along mucosal sites during mycoplasma infection. Mycoplasma-specific IL-4 and IFN-γ production also increased in a tissue-specific/time-dependent manner. IL-4 production was initially observed in the LRNs, whereas significant levels of IL-4 and IFN-γ was produced in both tissues 14 days after infection. In comparison, IFN-γ was the predominate cytokine, produce at 14 days coinciding with pulmonary inflammation. Suggesting that intense activation promoted changes in the resident pulmonary Th2 environment, and possible is a major component of pulmonary inflammatory immune responses. Both CD4+ and CD8= T cells were shown to have a role in modulation of disease severity during mycoplasma disease. Observation of gross pulmonary lesions reveal that mycoplasma infected mice treated with anti-CD8 antibody showed increase clinical signs of disease and pronounced gross pulmonary lesions. Additionally the number of total mononuclear cells increased dramatically in the absence of CD8+ T cells. Thus, CD8+ T cells may have a regulatory role in controlling resident CD4+ T cells that increased 14 days after infection. Chemokine production is known to mediate the recruitment of lymphocytes to enhance the initiation of immunity as well as be responsible for modulating inflammatory responses. We find that mycoplasma increase the number of dendritic cells in the lung 14 days after infection, and stimulated the production of dendritic cell-derived ABCD-1 chemokine. Also, β-chemokine MIP-1α and MIB-1β production was observed during intense immunization as well as during mycoplasma infection. These results provide evidence for a potential mechanism through which changes in resident pulmonary T cell responses occur given the intensity of the immune response generated.Item The Effect of Exercise Training on Behavior and Oxidative Stress in Aging Mice(2005-08-01) Taylor, Sara A.; Michael Forster; Joan F. Carroll; Susan FranksTaylor, Sara A., The effect of exercise training on behavior and oxidative stress in aging mice. Doctor of Philosophy (Biomedical Sciences), August 2005, 136 pp., 17 figures, bibliography, 97 titles. Purpose: Accrued oxidative damage to brain tissue is a proposed mechanism of cognitive deficits observed in aging. In mammalian tissue, it is hypothesized that a balance normally exists between pro-oxidants (reactive oxygen/nitrogen species) and endogenous antioxidant enzymes that are able to inhibit the activity of reactive oxygen/nitrogen species. As long as this balance is maintained, oxidative damage is moderated, but if the production of pro-oxidants becomes excessive or if the activity of antioxidants lags, oxidative stress and ultimately oxidative damage to tissues may result. It is the hypothesis of this project that exercise training is able to prevent decreased antioxidant activity in brain tissue, produce a favorable shift in the pro-oxidant/antioxidant balance, and thus moderate oxidative damage in the aging mice brain. Methods: 3 and 20 month old C57BL/6 mice were either subjected to 8 weeks of treadmill exercise followed by 3 weeks of concurrent exercise and behavior testing, or else they were age-matched, non-exercised controls. Mice were tested on multiple behavioral tasks that tested sensorimotor learning as well as tasks that required utilization of various component of cognitive learning. After exercise and behavior testing regimens were completed, biochemistry assays for protein oxidative damage as well as for antioxidant enzyme activity were performed on several brain regions. Results: It is a finding of the study that moderate, short-term exercise initiated in aged C57BL/6 mice resulted in increased fitness in the aged mice to the same degree as observed in young mice, improved some psychomotor skills, including bridge-walking and reaction time, and improved age-impaired spatial memory performance. Moreover, exercise training showed a lack of effect on oxidative damage in all brain regions, increased activity of glutathione peroxidase in the cerebellum and striatum of young, but not aged mice, and it increased the activity of catalase in the cortex of aged mice. Conclusions: The data presented in this project shows that exercise does moderate some age associated cognitive deficits, and the findings do not preclude the possibility that exercise produces this effect by reducing accrued oxidative damage that occurs with aging.Item The Effect of Late-Life Antioxidant Supplementaion on Brain Function(2007-10-01) Shetty, Ritu A.; Forster, Michael J.; Sumien, Nathalie; Singh, MeharvanShetty, Ritu A., The effect of late-life antioxidant supplementation on brain function. Doctor of Philolosophy (Biomedical Sciences), October, 2007, 229 pp., 5 tables, 18 figures, bibliography, 284 titles. Purpose: Aging is associated with mild to moderate loss in brain function over time. These functional losses are thought to involve reversible changes disrupting important cellular signaling processes. One of the theories that proposes to explain the reversible losses of function is the ‘oxidative stress’ hypothesis of aging. According to the oxidative stress hypothesis, there is an inherent cellular imbalance between production of oxidants and antioxidative defenses that increases with age and that leads to an increase in oxidative damage to macromolecules that are involved in crucial cell functions. Previous studies have established a link between these cellular changes associated with aging and the impairments in cognitive and psychomotor function. Further it has also been suggested that dietary interventions can modulate the level of oxidative stress, reducing oxidative damage and perhaps even ameliorate age-related dysfunction. Most interventions have been implemented relatively early in life and maintained until old age. However, the current studies were based on the rationale that interventions initiated in late-life could potentially lower oxidative damage and thereby alter cellular components responsible for functional impairments. Methods: In study I, separate groups of young (4 months) and old mice male C57BL/6 (18 months) were fed a control diet or a diet supplemented with low (105 mg/kg/day) or high (368 mg/kg/day) concentrations of CoQ10 for a period of 15 weeks. After 6 weeks on the diets, the mice were subjected to a battery of age-sensitive behavioral tests. In study II, separate groups of male C57BL/6 young mice aged 3-4 months and old mice 17-18 months (total of n=124) were fed ad libitum either a control diet (cyclodextrin in base diet), or the same diet supplemented with D- α-tocopheryl acetate (Toc) (200 mg/kg body wt/day), or with CoQ10 (148 mg/kg body wt/day) or a diet containing a combination of CoQ and Toc (200 mg/kg body wt/day + 148 mg/kg body wt/day) for a period of 13-14 weeks. In both studies mice were subjected to a battery of behavioral tests that required utilization of various component of memory and learning and sensorimotor reflexes. Results: In study I, low CoQ10 failed to improve cognitive and psychomotor function in old mice. However, the high CoQ10 marginally helped the old mice to navigate in the swim maze task with greater efficiency than control mice but did not affect their performance in probe trials. Conversely, the high CoQ10 diet selectively impaired the spatial performance in young mice in probe trials. The results from study I indicated that intake of CoQ10 initiated in late-life had minimal beneficial effects on behavior function. In study II, an age-associated decline of behavioral functioning was observed; however CoQ10 treatment failed to improve the performance of mice in any of the age-sensitive tests. Moreover, young mice supplemented with a high CoQ diet performed poorly in the probe trial in a swim maze task, suggesting a possible deleterious effect. The results from study II indicated that there was a significant improvement in performance of old mice in the coordinated running and the learning ability in discriminated avoidance task when supplemented with Toc or with a combination of CoQ10 and Toc. Conclusions: In conclusion, these studies suggest that benefits of single antioxidant supplementation when initiated late in life are limited; however dietary supplementation with a combination of antioxidants has a greater impact in reversing age-related decline in behavioral function.Item The Functional Role of Human 2B4 (CD244) Isoforms in Natural Killer Cells(2007-05-01) Rao, Krithi K.; Porunelloor Mathew; Rance Berg; Harlan JonesRao, Krithi K., Functional role of human 2B4 (CD244) isoforms in natural killer cells. Master of Science (Immunology), July, 2007, 66 pp., 15 illustrations, bibliography. Natural killer (NK) cells are a subpopulation of lymphoctyes that play an important role against tumor metastasis and various viral and bacterial infections. NK cell functions are controlled by a balance between positive and negative signals through various receptors. We have identified, cloned, and characterized the 2B4 (CD244) receptor in mice and human. 2B4 is involved in killing cancer cells and virus-infected cells by NK cells. 2B4 is involved in killing cancer cells and virus-infected cells by NK cells. 2B4 is a counter-receptor for CD48 and recent findings show that 2B4-CD48 interactions plan an important role in NK, T and B cell functions. In humans, two isoforms of 2B4, h2B4-A and h2B4-B, are expressed that differ in the extracellular domain. In the present investigation, we have studied the functions of h2B4-A and h2B4-B. Our data demonstrate that these two isoforms differ in their binding affinity for CD48, resulting in differential cytolytic function as well as cytokine production by NK cells. Thus, differential expression of 2B4 isoforms by NK cells may regulate immune responses mediated through 2B4-CD48 interactions.Item The Role of Advanced Glycation End Products in Brain Aging(2007-10-01) Thangthaeng, Nopporn; Michael J. Forster; Tina MachuThangthaeng, Nopporn, The Role of Advanced Glycation End Products in Brain Aging. Doctor of Philosophy (Biomedical Sciences), October, 2007, 178 pp., 9 tables, 6 figures, bibliography, 213 titles. Glycoxidation is a process of post-translational modification of proteins, involving both glycation and oxidation that ultimately generated advanced glycation end products (AGEs). Glycoxidation, which pay promote oxidative stress and disrupt protein structure and function, is hypothesized to be responsible for pathological conditions related to aging, diabetes, neurodegenerative diseases, and degenerative ophthalmic diseases. Previous studies have demonstrated that AGEs accumulate in the brains of aged animals and humans, yet few studies have directly addressed the possibility that AGEs are a cause of age-related brain dysfunction. Therefore, the overall purpose of the present studies was to examine the role AGEs in normal brain again and the associated decline in cognitive and psychomotor function. In order to achieve the goals, two different approaches were taken. The first approach involved (i) determining whether or not AGEs accumulated in different regions of the brain as a function of age and (ii) determining whether these changes were correlated with individual differences in the ability of old mice to perform in tests of cognitive and psychomotor function. Age-associated accumulation of CML, a predominant form of AGEs in vivo, and expression of receptor for AGEs (RAGE) protein, inferred from densitometry quantification of immunoblots in different regions of the brain, were assessed by comparing groups of 8-or 25-month old mice. The 25-month-old mice were administered a series of behavioral tests to assess cognitive and psychomotor function prior to assessment of glycation status. In the second approach, groups of mature (6 mos) and older mice (18 mos) were fed with a control diet or a diet enriched with galactose (49% of caloric content), an intervention that was expected to promote formation of AGEs. The mice were subsequently tested for impairment of their cognitive and psychomotor functions after 8 weeks on the assigned diet. Upon completion of the behavioral tests (after 14 weeks on diet), amounts of CML and RAGE protein were assessed through densitometric analyses of the immunoblots. The main findings from the first approach were that (i) there was a robust increase in CML content and expression of RAGE protein in the aged mouse brain that occurred in a region-specific manner; (ii) the relative amounts of CML and RAGE were not closely associated with the degree of age-related impairment of mice tested for brain function. The main findings from the second approach were that high dietary galactose: (i) failed to induce aged-like behavioral impairments in young/mature mice; (ii) exacerbated age-related impairment of some psychomotor functions and (iii) had no significant effects on glycation status or oxidative damage. Comparison of the experimental outcomes from the first and second approaches was complicated by a difference in the fat content of the diets fed to the mice in the two studies, which had an apparent effect on the amounts of AGEs and protein oxidation present in young mice. However, considering the results of the two studies independently warrants the following conclusions: (i) Amounts of AGEs do not predict individualized brain aging as assessed by neurobehavioral impairment and may instead by largely reflective of chronological age. (ii) Diets enriched with galactose may produce deleterious effects in older mice that do not involve a change in oxidative damage or glycation status. Overall, these studies provide little support for a specific role of glycoxidation in normal brain aging. It is impossible that the extent of accrual of AGEs in the normally aging brain is insufficient to affect cellular function, whereas larger accumulations of AGEs may be associated with various pathological conditions discussed in the literature.Item The Role of Loop C of the 5-Hydroxytryptamine3A Receptor in Ligand Recognition(2006-01-01) Lote, Rashmi R.; Machu, Tina K.; Dillon, Glenn; Singh, MeharvanThe 5-Hydroxytryptamine3 (the 5-HT3) receptor is composed of homomers of A subunits or heteromers of A and B subunits. The discovery of the crystal structure of the acetylcholine binding protein (Brejc et al., 2001) has helped us identify the generalized structure of the N-terminal domains of this superfamily, but the precise details regarding the amino acid residues involved in the process of ligand binding in the 5-Ht3 receptor are unknown. Mouse and human 5-HT3A receptors are 84% identical at the amino acid level, yet they have differential sensitivities to numerous drugs that bind to the ligand recognition site, for example, agonists such as 2-Methyl serotonin and m-Chlorophenyl Biguanide (m-CPBG) and competitive antagonists such as d-Tubocurarine (curare). The distal 1/3 part of the N-terminal domain, which contains both Loop C and Loop F is responsible for determining the potency of curare of the 5-HT3A receptor, these loops consist of thirteen non-conserved amino acid residues between mouse and human the 5-HT3A receptors. As a result of these differences, curare is 135-fold more potent at the mouse wild-type receptor than human wild-type receptor. In this project we utilized the differential curare sensitivity of mouse and human 5-HT3A receptors to obtain information regarding the amino acid residues in Loop C, involved in ligand binding process. Chimeric and point mutant receptors were constructed on the human receptor background with substitutions of corresponding mouse orthologs and expressed in Xenopus oocytes. Curare potency was assessed with two-electrode voltage clamp electrophysiological recordings. Our results suggests that a minimum of four mouse orthologs are required to produce the curare IC50 of 41 nM obtained in the chimeric receptor, which contains seven mouse orthologs (Hch Loop C receptor).