Alterations in liver sinusoidal endothelium in a baboon model of type 1 diabetes.

AIMS/HYPOTHESIS: Diabetes mellitus is associated with extensive vascular pathology, yet little is known about its long-term effects on liver sinusoidal endothelial cells (LSECs). Potential diabetic changes in LSECs are important because of the role played by fenestrations in the LSECs in hepatic disposition of lipoproteins. MATERIALS AND METHODS: Surgical liver biopsies for electron microscopy and immunohistochemistry were obtained from baboons with long-standing streptozotocin-induced, insulin-treated diabetes mellitus and compared with those from age-matched control animals. RESULTS: There was an increase in the thickness of LSECs (170 +/- 17 vs 123 +/- 10 nm, p < 0.01). Fenestrations in LSECs, as determined by overall porosity, were markedly reduced (1.4 +/- 0.1% vs 2.6 +/- 0.2%, p < 0.01). Increased numbers of stellate cells were seen on electron microscopy, and this finding was corroborated by increased smooth muscle actin expression. Diabetes mellitus was also associated with increased endothelial production of von Willebrand factor and caveolin-1. CONCLUSIONS/INTERPRETATION: Diabetes mellitus in the non-human primate is associated with marked changes in LSECs, including a reduction in fenestrations. Such changes provide an additional and novel mechanism for impaired hepatic lipoprotein clearance and post-prandial hyperlipidaemia in diabetes mellitus.

The effect of aging on the immunohistochemistry of apolipoprotein E in the liver.

Apolipoprotein E (apoE) is involved in hepatic disposition of chylomicron remnants, which is impaired in old age. Isoforms of apoE have been implicated in age-related diseases and possibly the aging process itself. Because the effects of old age on expression and distribution of apoE in the liver have not been reported, we studied the effect of old age on the immunohistochemistry of apoE in the livers of humans and the non-human primate, Papio hamadryas. Overall, old age was not associated with marked changes in the expression of apoE between adult (48+/-19 years) and old (82+/-5 years) humans. However, there was a change in the distribution of apoE staining. The livers of older humans displayed increased hepatocyte cytoplasmic staining and reduced peri-sinusoidal staining. Similar trends were noted in the livers from the baboons. Such findings are suggestive of altered apoE recycling in old age and have implications for age-related dyslipidaemia.

Pseudocapillarization and associated energy limitation in the aged rat liver.

Age-related impairment of drug metabolism by the liver is consistent with hepatocyte hypoxia, suggestive of the development of a diffusional barrier to oxygen supply. Because the effects of aging on the diffusional pathway (sinusoidal endothelium and space of Disse) have not been described, we performed comparative studies on the livers of Fischer F344 rats aged 4 to 7, 12 to 15, and 24 to 27 months. Light-microscopic examination revealed no evidence of fibrosis, cirrhosis, or other specific pathology. In contrast, scanning and transmission electron-microscopic examination revealed that aging is associated with pseudocapillarization of the sinusoidal endothelium, indicated by defenestration with reduced porosity, thickening of the endothelium, infrequent development of basal lamina, and only minor collagen deposits in the space of Disse. Furthermore, immunohistochemistry studies showed strong expression of collagen IV, moderate expression of factor VIII-related antigen, and weak expression of collagen I along the sinusoids of livers from old rats (P <.0001). In vitro (31)P magnetic resonance spectroscopy analysis showed that aging is associated with changes in high-energy phosphate and other metabolites, consistent with hepatocyte hypoxia. Aging in the liver is associated with changes in the sinusoidal endothelium and space of Disse that may restrict the availability of oxygen and other substrates.

The effect of acute oxidative stress on the ultrastructure of the perfused rat liver.

Ageing and liver disease are associated with ultrastructural changes in the hepatic sinusoid. Because of the possibility that reactive oxygen species could mediate these processes, we examined the effect of acute oxidative stress on the ultrastructure of the intact liver. Rat livers were perfused ex vivo, in situ with hydrogen peroxide via the portal vein. The livers were then fixed and the ultrastructure of the liver tissue examined with transmission and scanning electron microscopy. The effects of hydrogen peroxide were largely confined to the perisinusoidal areas. The sinusoidal endothelial cells became swollen and more porous, with large gaps replacing sieve plates. The space of Disse showed an increase in volume and the density of hepatocyte projections decreased. Kupffer cell activation was noted. Little or no ultrastructural change was observed within the hepatocytes. Oxidative stress delivered via the portal vein dramatically alters the ultrastructure of the perisinusoidal regions of the liver. This process may contribute to the pathogenesis of disease and age-related changes in the liver.