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1.
Mol Metab ; 66: 101609, 2022 12.
Artigo em Inglês | MEDLINE | ID: mdl-36198384

RESUMO

OBJECTIVE: Glycerol-3-phosphate (Gro3P) phosphatase (G3PP) hydrolyzes Gro3P to glycerol that exits the cell, thereby operating a "glycerol shunt", a metabolic pathway that we identified recently in mammalian cells. We have investigated the role of G3PP and the glycerol shunt in the regulation of glucose metabolism and lipogenesis in mouse liver. METHODS: We generated hepatocyte-specific G3PP-KO mice (LKO), by injecting AAV8-TBG-iCre to male G3PPfl/fl mice. Controls received AAV8-TBG-eGFP. Both groups were fed chow diet for 10 weeks. Hyperglycemia (16-20 mM) was induced by glucose infusion for 55 h. Hepatocytes were isolated from normoglycemic mice for ex vivo studies and targeted metabolomics were measured in mice liver after glucose infusion. RESULTS: LKO mice showed no change in body weight, food intake, fed and fasted glycemia but had increased fed plasma triglycerides. Hepatic glucose production from glycerol was increased in fasted LKO mice. LKO mouse hepatocytes displayed reduced glycerol production, elevated triglyceride and lactate production at high glucose concentration. Hyperglycemia in LKO mice led to increased liver weight and accumulation of triglycerides, glycogen and cholesterol together with elevated levels of Gro3P, dihydroxyacetone phosphate, acetyl-CoA and some Krebs cycle intermediates in liver. Hyperglycemic LKO mouse liver showed elevated expression of proinflammatory cytokines and M1-macrophage markers accompanied by increased plasma triglycerides, LDL/VLDL, urea and uric acid and myocardial triglycerides. CONCLUSIONS: The glycerol shunt orchestrated by G3PP acts as a glucose excess detoxification pathway in hepatocytes by preventing metabolic disturbances that contribute to enhanced liver fat, glycogen storage, inflammation and lipid build-up in the heart. We propose G3PP as a novel therapeutic target for hepatic disorders linked to nutrient excess.


Assuntos
Glicerol , Hiperglicemia , Monoéster Fosfórico Hidrolases , Animais , Masculino , Camundongos , Glucose/metabolismo , Glicerol/metabolismo , Glicogênio/metabolismo , Hiperglicemia/metabolismo , Fígado/metabolismo , Monoéster Fosfórico Hidrolases/metabolismo , Triglicerídeos/metabolismo
2.
Artigo em Inglês | MEDLINE | ID: mdl-33992809

RESUMO

Proprotein convertase subtilisin/kexin type 9 (PCSK9) plays an important role in cholesterol homeostasis by promoting the degradation of the LDL receptor (LDLR). PCSK9 loss-of-function mutations are associated with increased fasting plasma glucose levels and slightly elevated risk of type 2-diabetes. Considering the known detrimental effects of cholesterol accumulation in ß-cell, and the widespread use of PCSK9 inhibitors to treat hypercholesterolemia, it is important to gain insight into the role of pancreatic PCSK9 in glucose homeostasis and ß-cell function. We generated the first ß-cell-specific KO of PCSK9 (ßKO). PCSK9 mRNA and protein expression were reduced by 48% and 78% in ßKO islets, respectively, indicating that ß-cells constitute a major site of PCSK9 expression. In islets, loss of ß-cell PCSK9 resulted in unchanged LDLR protein levels, but reduced LDLR mRNA, indicating that cholesterol internalization is enhanced and that ß-cell PCSK9 promotes LDLR degradation. In contrast, whole body PCSK9 KO mice exhibited 2-fold higher LDLR protein levels in islets and a stable expression of cholesterogenic genes. Whole body KO and ßKO mice presented normal glucose tolerance, insulin release in response to glucose load and insulin sensitivity. Ex vivo glucose-stimulated insulin secretion in presence or absence of fatty acids was similar in WT and KO islets. Like KO mice, individuals carrying loss-of-function PCSK9 variants may be protected from cholesterol-induced toxicity due to reduced circulating cholesterol levels. Using both whole body KO or ßKO models, our data demonstrate that PCSK9 deletion in mouse does not have any toxic effect on ß-cell function and glucose homeostasis.


Assuntos
Glucose/metabolismo , Homeostase , Secreção de Insulina , Células Secretoras de Insulina/metabolismo , Pró-Proteína Convertase 9/deficiência , Pró-Proteína Convertase 9/genética , Animais , Ativação Enzimática , Técnicas de Inativação de Genes , Camundongos
3.
Proc Natl Acad Sci U S A ; 104(49): 19512-7, 2007 Dec 04.
Artigo em Inglês | MEDLINE | ID: mdl-18040043

RESUMO

Elevated expression of members of the BCL-2 pro-survival family of proteins can confer resistance to apoptosis in cancer cells. Small molecule obatoclax (GX15-070), which is predicted to occupy a hydrophobic pocket within the BH3 binding groove of BCL-2, antagonizes these members and induces apoptosis, dependent on BAX and BAK. Reconstitution in yeast confirmed that obatoclax acts on the pathway and overcomes BCL-2-, BCL-XL-, BCL-w-, and MCL-1-mediated resistance to BAX or BAK. The compound potently interfered with the direct interaction between MCL-1 and BAK in intact mitochondrial outer membrane and inhibited the association between MCL-1 and BAK in intact cells. MCL-1 has been shown to confer resistance to the BCL-2/BCL-XL/BCL-w-selective antagonist ABT-737 and to the proteasome inhibitor bortezomib. In both cases, this resistance was overcome by obatoclax. These findings support a rational clinical development opportunity for the compound in cancer indications or treatments where MCL-1 contributes to resistance to cell killing.


Assuntos
Antineoplásicos/farmacologia , Apoptose/efeitos dos fármacos , Resistencia a Medicamentos Antineoplásicos/efeitos dos fármacos , Proteínas de Neoplasias/antagonistas & inibidores , Proteínas Proto-Oncogênicas c-bcl-2/antagonistas & inibidores , Pirróis/farmacologia , Animais , Ácidos Borônicos/farmacologia , Bortezomib , Linhagem Celular Tumoral , Inibidores de Cisteína Proteinase/farmacologia , Humanos , Indóis , Melanoma/metabolismo , Camundongos , Mitocôndrias/efeitos dos fármacos , Mitocôndrias/metabolismo , Proteína de Sequência 1 de Leucemia de Células Mieloides , Proteínas de Neoplasias/metabolismo , Inibidores de Proteassoma , Proteínas Proto-Oncogênicas c-bcl-2/metabolismo , Pirazinas/farmacologia , Proteína Killer-Antagonista Homóloga a bcl-2/antagonistas & inibidores , Proteína Killer-Antagonista Homóloga a bcl-2/metabolismo
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