Browsing by Subject "adipose tissue"
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Item Adipose-Derived Stem Cells from Obese Donors Polarize Macrophages and Microglia toward a Pro-Inflammatory Phenotype(MDPI, 2020-12-25) Harrison, Mark A. A.; Wise, Rachel M.; Benjamin, Brooke P.; Hochreiner, Emily M.; Mohiuddin, Omair A.; Bunnell, Bruce A.Macrophages and microglia represent the primary phagocytes and first line of defense in the peripheral and central immune systems. They activate and polarize into a spectrum of pro- and anti-inflammatory phenotypes in response to various stimuli. This activation is tightly regulated to balance the appropriate immune response with tissue repair and homeostasis. Disruption of this balance results in inflammatory disease states and tissue damage. Adipose stem cells (ASCs) have great therapeutic potential because of the potent immunomodulatory capabilities which induce the polarization of microglia and macrophages to the anti-inflammatory, M2, phenotype. In this study, we examined the effects of donor heterogeneity on ASC function. Specifically, we investigated the impact of donor obesity on ASC stemness and immunomodulatory abilities. Our findings revealed that ASCs from obese donors (ObASCs) exhibited reduced stem cell characteristics when compared to ASCs from lean donors (LnASCs). We also found that ObASCs promote a pro-inflammatory phenotype in murine macrophage and microglial cells, as indicated by the upregulated expression of pro-inflammatory genes, increased nitric oxide pathway activity, and impaired phagocytosis and migration. These findings highlight the importance of considering individual donor characteristics such as obesity when selecting donors and cells for use in ASC therapeutic applications and regenerative medicine.Item Regional Adipose Tissue Deposition, Its Rate of Lipolysis, and Subsequent Effect of Insulin Resistance-in Type II Diabetes Mellitus(1999-06-01) Schalscha, Alan G.; Raven, Peter B.; Downey, H. Fred; Caffrey, James L.Diabetes mellitus is a disease that plagues populations world wide. More than 5 percent of U.S. citizens are afflicted with one or another form of this disease (22). This paper begins by discussing the incidence of this illness as it affects Americans. An explanation of the four forms in which diabetes mellitus itself will be offered, and these will be classified according to etiology. Non-insulin dependent diabetes mellitus (NIDDM), also called type II diabetes mellitus, will be the last of these forms mentioned. Due to its prevalence, NIDDM will be the focus of this paper. The proposed pathophysiology of NIDDM will be discussed, though to researchers it still remains somewhat of a mystery. This paper will then briefly the genetic and environmental interaction responsible for the onset of non-insulin dependent diabetes mellitus. A brief discussion of the interrelationship between decreasing physical activity and a subsequent increase in obesity will follow (38). The location of adipose tissue seems to have adverse effects on certain aspects of NIDDM, including its sensitivity to insulin. This paper proposes that either subcutaneous or visceral adipose deposits specifically reduce insulin sensitivity more than other fat stores. The connection between adipose tissue and insulin sensitivity appears to be mediated by fatty acids released from specific depots and their destination immediately following release.