Browsing by Subject "Signal Processing"
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Item Endothelin-1-Induced Signaling Involved in Extracellular Matrix Remodeling(2006-12-01) He, Shaoqing; Thomas Yorio; Neeraj Agarwal; Peter KoulenET-1-Induced Signaling in ECM Remodeling in Astrocytes. Shaoqing He, Department of Pharmacology & Neuroscience, University of North Texas Health Science Center, Fort Worth, TX 76107. ET-1 levels are elevated under pathophysiological conditions, including glaucoma, however, ET-1’s ocular functions are not fully documented. Therefore, ET-1-induced signaling and ECM remodeling in astrocytes and at the optic nerve head were determined in this study. Three signaling pathways, including ERK1/2, PKC, and P13 kinase, were involved in ET-1-medicated cell proliferation of U373MG astrocytoma cells. Blocking one of these pathways completely abolished cell proliferation. It appeared that ERK1/2 activation was involved, but was independent of PKC and P13 kinase activation by ET-1. It was also determined that the ETB receptor was the dominant receptor involved in ERK1/2 phosphorylation and cell proliferation. In addition, ERK1/2 phosphorylation was not transactivated by the EGF receptor by ET-1. The studies also indicated that there was no activation of c/nPKC, although PKC was involved in cell proliferation. In U373MG astrocytoma cells, MAPK-ERK, PKC and P13K pathways appear to exert their roles in parallel without a direct, apparent “cross-talk”. Based on the signaling pathways obtained from U373MG astrocytoma cells, the regulation of MMPs/TIMPs and fibronectin in ET-1-activated human optic nerve head astroctyes (hONAs) was also determined. ET-1 not only induced rapid phosphorylation of ERK1/2 and PKC βI/ βII/δ but also increased the activity of MMP-2 and the expression of TIMP=1 and 2. The activity of MMP-2 was enhanced in the presence of inhibitors of MAPK or PKC in hONAs, whereas the expression of TIMP-1 and 2 was abolished. ET-1 increased the soluble fibronectin (FN) expression as well as FN matrix formation, however, the expression and deposition of FN were MAPK- and PKC-independent, whereas expression and activity of MMps and TIMPs were MAPK- and PKC-dependent. Therefore, ET-1 shifted the balance of MMPs/TIMPs and substrates that altered the ECM composition and subsequently let to ECM remodeling in activated hONA cells. ET-1’s effects on ECM remodeling at the optic nerve head were also examined following intravitreal administration of ET-1 in rats. The increased expression of MMP-9 and collagen VI was detected in both ETB deficient rats and wildtype Wistar rats post ET-1 intravitreal injection for 2 and 14 days, whereas the deposition of FN and collagen IV was unchanged. There was no significant difference in staining of MMP-9 and collagen VI between ETB deficient rats and wildtype Wistar rats. In this study, ECM remodeling was demonstrated in rats injected with ET-1 into the vitreous. Such changes in the ECM seen in the current study provide additional insight into the mechanisms that might explain the glaucomatous changes observed in ET-1-injection or perfusion models. In summary, ET-1 not only activated several signaling pathways in cell proliferation of astrocytes, but also modulated the expression of ECM molecules in vitro and in vivo, indicating that ET-1 plays a regulatory role in ECM remodeling. These effects coupled with observations that ET-1 levels are elevated in glaucoma patients, suggests that ET-1 may be involved in glaucomatous optic neuropathy.Item Regulation of intracellular calcium channels by their associated proteins homer 1 and presenilin 1(2006-05-01) Hwang, Sung-Yong; Koulen, Peter; Dillon, Glenn; Singh, MeharvanSung-Yong, Hwang, Regulation of intracellular calcium channels by their associated proteins homer 1 and presenilin 1. Doctor of Philosophy (Pharmacology and Neuroscience), May, 2006, 184 pp., 4 tables, 20 illustrations, 74 titles. In neurons, Calcium (CA2+) serves as a critical intracellular messenger that regulates a variety of cellular processes such as gene expression, neurotransmitter release, cell death, and synaptic plasticity. Therefore, it is essential for neurons to control their Ca2+ levels tightly. Ca2+ is released within the cell from intracellular stores such as the endoplasmic reticulum by activation of intracellular Ca2+ channels (ICCs) such as the inositol 1,4,5-triphosphate (IP3) receptors (IP3Rs) and ryanodine receptors (RyRs). Each of these two groups of ICC has three isoforms. A number of associated proteins of these two ICCs that were shown to modulate activity of the respective channel have been identified. Homer 1, a synaptic scaffolding protein not only physically associated with IP3R type1 (IP3R1), but also changes the activity of IP3R1, suggesting that Homer 1 is involved in intracellular Ca2+ signaling. Based on the similarity in amino acid sequence and molecular and physiological properties among IP3R isoforms and the fact that IP3R type 3 (IP3R3) contains the proline-rich motif (PPxxFr) that is required for the interaction with Homer, it was hypothesized that Homer 1 associates with IP3R3, leading to changes in the channel activity. Presenilin 1 (PS1) is a transmembrane protein, being expressed in cell body, dendrites, and axon in the neuron. Mutations in PS1 account for most cases of early-onset familial Alzheimer’s disease (AD). PS1 was shown to associate with RyRs and to modulate their channel activity. Therefore, it was hypothesized that specific regions of PS-1 bind to RyR type 2 (RyR2), a major isoform in the brain, resulting in changes in the channel activity. Homer 1c was shown to associate with IP3R3, leading to a decrease in channel activity. A specific region of PS1 that interacts with RyR2 was identified to increase the channel activity of RyR2. Results of the present study contributed to the understanding of the nature of intracellular Ca2+ signaling as well as the mechanisms of action by which ICCs are regulated by their associated proteins. These findings provide the rationale for novel strategies to study neurological disorders including AD and epilepsy that are mediated by Ca2+ dysregulation.Item Sexually Dimorphic Anxiety-Like Interoceptive Discriminative Stimuli(1997-12-01) Jung, Marianna E.; Walls, Cleatus; Downey, H. Fred; Forster, MichaelJung, Marianna E., Sexually Dimorphic Anxiety-Like Interoceptive Discriminative Stimuli. Doctor of Philosophy (Biomedical Sciences), December 1997, 150 pp, introduction, 2 chapters, discussion, bibliography, 109 titles. This study compared gender differences in the anxiogenic stimuli induced by either a GABA-A antagonist, pentylenetetrazol (PTZ) or by a 5-HT1b/2 agonist, m-chlorophenylpiperazine (m-CPP) before and during ethanol withdrawal (EW). Rats were trained to discriminate either PTZ (16mg/kg, IP) or m-CPP (1.2 mg/kg, IP) from saline in a two lever choice task for food reward. Male and female rats were gonadectomized or sham-operated, and ovariectomized (OVX) female rats were tested during replacement treatment with 17β estradiol (2.5 mg, 21 day release, sc). The dose-response for the discrimination of the interoceptive stimulus (IDS) produced by PTZ (0-16 mg/kg) or m-CPP (0 to 1.2 mg/kg) was measured under all hormonal conditions. For m-CPP trained rats, latency to first lever-press response was also tested. Results: sham and estradiol-replaced female rats had higher ED50s for discrimination of the PTZ or m-CPP IDS than intact males or OVX rats. There is a dose-related impairment of operant responding after mCPP injection. Sham and estradiol replaced OVX rats showed an increased delay to the initiation of response after m-CPP injection as compared to sham or castrated male rats or OVX rats that showed no effect at the doses tested. Rats then received a chronic ethanol diet (6.5%) for 10 days. At twelve hours of ethanol withdrawl, they were tested for lever selection after saline injection. Fewer sham female and estradiol-replaced female rats responded on the drug lever during acute EW as compared to sham male, castrated or OVX rats. In general, the anxiogenic drug lever selection of OVX rats resembled that of male rats but was restored toward that of sham female rats by estradiol replacement. Castration did not alter the response of male rats to either PTZ or mCPP. Serum β –estradiol concentrations were determined by radioimmunoassay for sham, OVX, and estradiol-replaced female rats. The concentration was significantly higher in hormone-replaced female rats than in OVX. The estradiol concentration in sham female rats showed a cyclic pattern over 4 consecutive days, but this pattern did not correlate with any difference in IDS. Blood ethanol concentration (BEC) was determined using head space gas chromatography. BEC was higher in intact female rats than in intact male rats after ethanol injection (2 g/kg, ip), but did not differ during EW. Conclusions: females produce less anxiogenic IDS in response to either GABA inhibition or 5-HT1b/2 activation, but are more impaired by m-CPP in their ability to initiate operant responses than male rats. In addition, fewer intact females developed a spontaneous IDS during EW than males which is not the result of lower BEC. Estrogen appears to play a trophic role in altering responsiveness to anxiogenic stimuli.