Obesity and hyperglycemia lead to impaired post-ischemic recovery after permanent ischemia in mice.

OBJECTIVE: Obesity-induced diabetes has increased over the years and has become one of the risk factors for stroke. We investigated the influence of diet-induced obesity and hyperglycemia on permanent distal middle cerebral artery occlusion (pMCAO)-induced ischemic stroke in mice. METHODS: Male C57/Bl6 mice were treated with a high-fat/high-carbohydrate diet [HFCD/obese and hyperglycemia (O/H)] or a normal diet (control) for 3.5 months, subjected to pMCAO, and sacrificed after 7 days. RESULTS: Infarct volume analysis showed no differences between the O/H and control group, whereas neurological deficits were significantly higher in the O/H group compared to the control group. Sirtuin (Sirt1) was overexpressed and NADPH oxidase was reduced in the O/H group. O/H mice had significantly lower expression of Wnt and glycogen synthase kinase 3 α and ß, a key component in the Wnt signaling pathway. Translocation of apoptosis inducing factor (AIF) to the nucleus was observed in both the O/H and control groups, but O/H mice showed a higher expression of AIF in the nucleus. CONCLUSIONS: These data suggest that impaired Wnt signaling and active apoptosis result in reduced post-stroke recovery in obese and hyperglycemic mice.

Tight association between macrophages and adipocytes in obesity: implications for adipocyte preparation.

OBJECTIVE: To determine the cellular architecture of the inflammatory infiltrate in adipose tissue from obese mice, and identify the source of inflammatory cytokines in adipose tissue at a single cell level. METHODS: Adipose tissue from diet-induced obese mice was digested by collagenase treatment and fractionated by density centrifugation to obtain an adipocyte floating layer and a pellet of stromal vascular cells. The cellular architecture of the adipocyte-macrophage interaction in both intact white adipose tissue (WAT) and the separated density gradient floating layer fraction was analyzed by confocal immunohistochemistry. Cytokine expression was detected by semi-quantitative real time PCR and immunohistochemical analysis. RESULTS: Three dimensional image analysis of WAT and the separated "adipocyte" floating layer revealed lipid-engorged macrophages, macrophages in contact with lipid droplets and sheath-like assemblies of macrophages surrounding adipocytes. The macrophages immunostained for TNFα and to a lesser extent for the immunoregulatory cytokine IL-10. TNFα staining was associated only with macrophages indicating that macrophages and not adipocytes are the source of TNFα expression in the adipocyte floating layer. CONCLUSION: Macrophages form assemblies that tightly adhere to and cover adipocytes and lipid droplets. TNFα found in low density adipocyte preparations is due to contamination with macrophages.

Fatty acylation enhances cellular localization of dansylated phenylalanines.

Two series of fluorescent molecules were synthesized by acylation of dansyl ethylenediamine and phenylalanine dansyl ethylenediamine with one of either acetyl (C(2)), hexanyl (C(6)), cyclohexanecarbonyl (C(7)), myristyl (C(14)), or palmityl (C(16)) groups and examined for entry and localization in Chinese Hamster Ovary (CHO) cells in tissue culture. Gross total fluorescence retention and cellular microscopic fluorescence patterns were analyzed. In both series, molecules with myristyl or palmityl groups entered cells. Only in the phenylalanine series did hexyl and cyclohexanecarbonyl modification enable entry. Consistent with a mechanism of passive diffusion, entry of compounds into cells was neither energy dependent nor endocytosis linked. Acylated molecules were observed to localize in cytoplasm and not enter nuclei or associate with lipophilic plasma membranes.