Cholesterol influences many pathways, including serving as precursor for adrenal steroidogenesis. Imbalance of cholesterol levels has been implicated in several diseases including cardiovascular... Show moreCholesterol influences many pathways, including serving as precursor for adrenal steroidogenesis. Imbalance of cholesterol levels has been implicated in several diseases including cardiovascular diseases and its underlying pathology, atherosclerosis. Here we concentrate on the role of a) lipid metabolism, especially high-density lipoprotein (HDL), in the development and regression of atherosclerosis and b) apolipoprotein E in adrenal glucocorticoid (GC) synthesis. We showed the importance of HDL size and functionality on atherosclerotic lesion formation in scavenger receptor-BI (SR-BI) knockout mice. Normalisation of the enlarged HDL particle size phenotype in these mice, trough depletion of phospholipid transfer protein, decreased atherosclerotic susceptibility and, contrary, development of a metabolic syndrome like phenotype. Furthermore, we studied the importance of HDL during regression of existing lesions in hypercholesterolemic apolipoprotein-E (ApoE) knockout mice. Normalizing the hypercholesterolemia resulted in regression of lesions and additional HDL depletion impaired the regression.The specific contribution of lipoprotein fractions to steroidogenesis is unknown. We lowered the (very) large-density lipoprotein fraction in ApoE-KO mice, resulting in a decreased GC output. ApoE is also produced within the adrenal where its local role is unclear. By transplanting an ApoE KO adrenal into an adrenalectomized wild-type mouse we revealed that local ApoE does not impact GC synthesis. Show less
Sluis, R.J. van der; Depuydt, M.A.C.; Eck, M. van; Hoekstra, M. 2020
The contribution of individual lipoprotein species to the generation of the adrenal cholesterol pool used for the synthesis of anti-inflammatory glucocorticoid species remains unknown. Here we... Show moreThe contribution of individual lipoprotein species to the generation of the adrenal cholesterol pool used for the synthesis of anti-inflammatory glucocorticoid species remains unknown. Here we examined the impact of specific lowering of very low-density lipoprotein (VLDL) and low-density (LDL) levels on adrenal cholesterol and glucocorticoid homeostasis. Hereto, lethally-irradiated hypercholesterolemic apolipoprotein E (APOE) knockout mice received APOE-containing bone marrow from wild-type mice (n = 6) or APOE knockout control bone marrow (n = 10) and were subsequently fed a regular chow diet. Transplantation with wild-type bone marrow was associated with a 10-fold decrease in VLDL/LDL-cholesterol levels. No changes were observed in adrenal weights, adrenal cholesterol content, or basal plasma corticosterone levels. However, food deprivation-induced corticosterone secretion was 64% lower (P < 0.05) in wild-type bone marrow recipients as compared to APOE knockout bone marrow recipients, in the context of similar plasma adrenocorticotropic hormone (ACTH) levels. A parallel 19-29% decrease in adrenal relative mRNA expression levels of ACTH-responsive genes SR-BI (P < 0.01), STAR (P < 0.05), and CYP11A1 (P < 0.05) was detected. In support of relative glucocorticoid insufficiency, blood lymphocyte and eosinophil concentrations were respectively 2.4-fold (P < 0.01) and 8-fold (P < 0.001) higher in wild-type bone marrow recipients under food deprivation stress conditions. In conclusion, we have shown that a selective lowering of VLDL/LDL levels in APOE knockout mice through a transplantation with APOE-containing wild-type bone marrow is associated with a decreased maximal adrenal glucocorticoid output. Our studies provide experimental support for the hypothesis that, in vivo, VLDL/LDL serves as the primary source of cholesterol used for glucocorticoid synthesis during food deprivation stress. Show less
Iwaki, H.; Blauwendraat, C.; Leonard, H.L.; Kim, J.J.; Liu, G.Q.; Maple-Grodem, J.; ... ; Int Parkinson's Dis Genomics Cons 2019
Apolipoprotein E (APOE) deficient mice exhibit unexplained hypercorticosteronemia. Given that APOE is also produced locally within the adrenals, we evaluated the effect of adrenal-specific APOE... Show moreApolipoprotein E (APOE) deficient mice exhibit unexplained hypercorticosteronemia. Given that APOE is also produced locally within the adrenals, we evaluated the effect of adrenal-specific APOE deficiency on the glucocorticoid function. Hereto, one adrenal containing or lacking APOE was transplanted into adrenalectomized wild-type mice. Adrenal APOE deficiency did not impact adrenal total cholesterol levels. Importantly, the ability of the two adrenal types to produce glucocorticoids was also not different as judged from the similar plasma corticosterone levels. Adrenal mRNA expression levels of HMG-CoA reductase and the LDL receptor were decreased by respectively 72% (p < 0.01) and 65% (p = 0.07), suggesting that cholesterol acquisition pathways were inhibited to possibly compensate the lack of APOE. In support, a parallel increase in the expression level of the cholesterol accumulation-associated ER stress marker CHOP was detected (+117%; p < 0.05). In conclusion, our studies show that elimination of adrenocortical APOE production does not impact glucocorticoid output in wild-type mice. Show less
The main objective of this thesis was to clarify the observed reversal of effect of classical risk factors for dementia and mortality with increasing age and to gain better insight in the... Show moreThe main objective of this thesis was to clarify the observed reversal of effect of classical risk factors for dementia and mortality with increasing age and to gain better insight in the biological mechanism behind the relation between both phenotypic and genetic variation in apolipoprotein E (apoE) and cognitive function. Although high cholesterol levels in midlife associate with worse cognitive function and dementia in late-life, this association attenuates and even reverses with increasing age. In memory outpatient clinic patients high blood pressure associated with better cognitive function, only in patients with structural brain damage. In the Leiden 85-Plus Study, a decline in global cognitive function preceded declines in total cholesterol levels, HDL cholesterol levels, and blood pressure, and not vice versa. Moreover, mortality was associated with larger declines in body mass index, total cholesterol levels, HDL cholesterol levels, and blood pressure. High plasma apoE levels associated with worse cognitive function, whereas offspring from Alzheimer__s disease patients had lower plasma apoE levels when measured in midlife compared to offspring from cognitively intact controls. Finally, high serum calcium levels were strongly associated with worse cognitive function in APOE _3_4 carriers, to a lesser extent in _3_3 carriers, but not in _2_3 carriers. Show less
Lifespan in under genetic control. In this thesis we translated genes regulating lifespan in model organisms to humans. First we identified DAF-12 as a critical gene for lifespan regulation in the... Show moreLifespan in under genetic control. In this thesis we translated genes regulating lifespan in model organisms to humans. First we identified DAF-12 as a critical gene for lifespan regulation in the nematode worm C. elegans. Then we found that the Liver X Receptors and the Vitamin D Receptor are the most similar human proteins. We tested these genetic variation in these human genes in the Leiden 85-plus Study and found them to associate with with lifespan and cognitive decline respectively. Apolipoprotein E is a target gene of the Liver X Receptor. We found that plasma levels of apolipoprotein E associated with increased risk of cardiovascular mortality, cognitive decline and stroke in a manner independent of classical cardiovascular risk factors. Finally we reviewed the evidence from human candidate gene studies. We conclude that the use of model organisms provides useful directions for research into the genetics of human longevity. However, as the human signalling systems are more complex and our environment is different from that of model organisms, it is unclear to what extent results obtained in model organisms can be extrapolated to humans. Show less
