228 results on '"Kloosterhuis, Niels"'
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2. Rebalancing of mitochondrial homeostasis through an NAD+-SIRT1 pathway preserves intestinal barrier function in severe malnutrition
3. Pharmacological inhibition of MEK1/2 signaling disrupts bile acid metabolism through loss of Shp and enhanced Cyp7a1 expression
4. A novel role for GalNAc-T2 dependent glycosylation in energy homeostasis
5. T cell cholesterol efflux suppresses apoptosis and senescence and increases atherosclerosis in middle aged mice
6. Mice with a deficiency in Peroxisomal Membrane Protein 4 (PXMP4) display mild changes in hepatic lipid metabolism
7. The hepatocyte IKK:NF-κB axis promotes liver steatosis by stimulating de novo lipogenesis and cholesterol synthesis
8. Hepatocyte-specific glucose-6-phosphatase deficiency disturbs platelet aggregation and decreases blood monocytes upon fasting-induced hypoglycemia
9. Cholangiopathy and Biliary Fibrosis in Cyp2c70-Deficient Mice Are Fully Reversed by Ursodeoxycholic Acid
10. Impaired Hepatic Vitamin A Metabolism in NAFLD Mice Leading to Vitamin A Accumulation in Hepatocytes
11. Changes in bile acid composition are correlated with reduced intestinal cholesterol uptake in intestine-specific WASH-deficient mice
12. Changes in bile acid composition are correlated with reduced intestinal cholesterol uptake in intestine-specific WASH-deficient mice
13. Protection against high-fat diet induced obesity, dyslipidaemia, and fatty liver in a preclinical setting
14. Hepatic Retromer is critical for systemic cholesterol homeostasis via shaping the endo-lysosomal organization
15. SMLR1 is a novel player in chylomicron metabolism
16. GPR146 and HDL metabolism
17. The endosomal sorting complex Retromer has a central role in systemic cholesterol homeostasis by controlling endo-lysosomal cholesterol transport in hepatocytes
18. Taking One Step Back in Familial Hypercholesterolemia: STAP1 Does Not Alter Plasma LDL (Low-Density Lipoprotein) Cholesterol in Mice and Humans
19. Loss of hepatic SMLR1 causes hepatosteatosis and protects against atherosclerosis due to decreased hepatic VLDL secretion.
20. Selective Hepatic Cbs Knockout Aggravates Liver Damage, Endothelial Dysfunction and ROS Stress in Mice Fed a Western Diet
21. Hyperglycemia, pregnancy outcomes and maternal metabolic disease risk during pregnancy and lactation in a lean gestational diabetes mouse model
22. Rebalancing of mitochondrial homeostasis through an NAD+-SIRT1 pathway preserves intestinal barrier function in severe malnutrition.
23. Hyperglycaemia, pregnancy outcomes and maternal metabolic disease risk during pregnancy and lactation in a lean gestational diabetes mouse model
24. A Proinflammatory Gut Microbiota Increases Systemic Inflammation and Accelerates Atherosclerosis
25. Erich4 is Not Involved in the Assembly and Secretion of Intestinal Lipoproteins
26. Cargo-Specific Role for Retriever Subunit VPS26C in Hepatocyte Lipoprotein Receptor Recycling to Control Postprandial Triglyceride-Rich Lipoproteins
27. Mirabegron-induced brown fat activation does not exacerbate atherosclerosis in mice with a functional hepatic ApoE-LDLR pathway
28. Loss of hepatic SMLR1 causes hepatosteatosis and protects against atherosclerosis due to decreased hepatic VLDL secretion
29. The COMMD Family Regulates Plasma LDL Levels and Attenuates Atherosclerosis Through Stabilizing the CCC Complex in Endosomal LDLR Trafficking
30. Apolipoprotein F is reduced in humans with steatosis and controls plasma triglyceride‐rich lipoprotein metabolism
31. Increased atherosclerosis in a mouse model of glycogen storage disease type 1a
32. FRI-549-YI Hepatic loss of the endosomal sorting complex Retromer delays postnatal liver maturation and increases hepatocellular proliferation
33. T cell cholesterol efflux suppresses apoptosis and senescence and increases atherosclerosis in middle aged mice
34. Apolipoprotein F is reduced in humans with steatosis and controls plasma triglyceride‐rich lipoprotein metabolism.
35. T-cell Abca1 and Abcg1 cholesterol efflux pathways suppress T-cell apoptosis and senescence and increase atherosclerosis in middle-agedLdlr-/-mice
36. Elevated granulocyte-colony stimulating factor and hematopoietic stem cell mobilization in Niemann-Pick type C1 disease
37. Modeling Phenotypic Heterogeneity of Glycogen Storage Disease Type 1a Liver Disease in Mice by Somatic CRISPR/CRISPR-associated protein 9–Mediated Gene Editing
38. Corrigendum to 'NF-κB p65 serine 467 phosphorylation sensitizes mice to weight gain and TNFα-or diet-induced inflammation' [Biochim. Biophys. Acta Mol. Cell Res., 1864 (2017): 1785–1798]
39. Corrigendum to “NF-κB p65 serine 467 phosphorylation sensitizes mice to weight gain and TNFα-or diet-induced inflammation” [Biochim. Biophys. Acta Mol. Cell Res., 1864 (2017): 1785–1798]
40. Modeling Phenotypic Heterogeneity of Glycogen Storage Disease Type 1a Liver Disease in Mice by Somatic CRISPR/CRISPR-associated protein 9–Mediated Gene Editing
41. Impaired Hepatic Vitamin A Metabolism in NAFLD Mice Leading to Vitamin A Accumulation in Hepatocytes
42. A common variant in CCDC93 protects against myocardial infarction and cardiovascular mortality by regulating endosomal trafficking of low-density lipoprotein receptor
43. Tumor Necrosis Factor Receptor 1 Gain-of-Function Mutation Aggravates Nonalcoholic Fatty Liver Disease but Does Not Cause Insulin Resistance in a Murine Model
44. Impaired Shedding of TNF Receptor 1 Aggravates High Fat Diet Induced Non-Alcoholic Fatty Liver Disease But Does Not Cause Insulin Resistance in Mice: 251
45. ADAM17 up-regulation in renal transplant dysfunction and non-transplant-related renal fibrosis
46. Sub-chronic administration of stable GIP analog in mice decreases serum LPL activity and body weight
47. Heparin binding epidermal growth factor in renal ischaemia/reperfusion injury
48. NF-kappaB p65 serine 467 phosphorylation sensitizes mice to weight gain and TNFalpha-or diet-induced inflammation
49. Poster Board #-Session: P90-II Hydrogen Sulfide (H2S) Induced Hypometabolism Minimizes Renal Ischemia/Reperfusion Injury.: Abstract# 1070
50. The hepatic WASH complex is required for efficient plasma LDL and HDL cholesterol clearance
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