Humoral Response to the Third Dose of Sars-Cov-2 Vaccine in Kidney Transplant Recipients.

BACKGROUND: Most solid organ transplant recipients did not develop an appreciable serologic response after 2 doses of the mRNA SARS-CoV-2 vaccine. METHODS: We analyzed the humoral response after a third dose of the BNT162b2 vaccine in 130 kidney transplant recipients, compared to 48 health care workers, and associated factors, including prevaccine cellular immune response, by evaluating intracellular cytokine production after stimulation of donor's peripheral blood mononuclear cells. RESULTS: After 2 doses, most of the controls (47 out of 48, 98%) and only 40% of kidney recipients (52 of 130) kidney recipients were seropositive (P < .001). Most seronegative recipients developed a serologic response after the booster (47 out 78, 60%), thus bringing the total number of seropositive recipients to 99 out of 130 (76%). After the third dose, there was a significant increase in antibodies titers in both groups. Decreased humoral response was significantly associated with an older age, lower lymphocyte count, and a lower level of antibodies before booster administration. CD4+TNFα+ and CD4+INFγ+ were correlated with mean increase in antibody titers. CONCLUSIONS: A third dose of the BNT162b2 mRNA vaccine in kidney recipients is safe and effectively results in increased IgG anti-S levels, including in individuals who were seronegative after 2 doses. Long-term studies of the length of the immune response and protection are required.

Dipeptidyl peptidase 4-deficient rats have improved bile secretory function in high fat diet-induced steatosis.

BACKGROUND/AIMS: Rodent obesity models have been shown to display impaired bile secretory functions. We have shown that glucagon-like peptide 1 (GLP-1) attenuates hepatic lipogenesis, and in the present study we investigated whether GLP-1 also improves high fat diet-associated cholestatic injury. METHODS: Wild type (WT) and dipeptidyl peptidase 4-deficient rats (DPP4-) with chronic elevated serum levels of active GLP-1 were fed regular chow and a Western diet for 2 months. Primary hepatocytes were used to assess GLP-1 effects on mRNA expression and transcription of genes encoding bile acid synthesis enzymes and transporters. RESULTS: DPP4- exhibited attenuated liver injury as expressed by lower serum AST and ALT after 2 months of a Western diet. In addition, DPP4- had better insulin sensitivity, lower serum triglycerides, cholesterol and bile acids. Hepatic expression of cyp7A1, the rate limiting enzyme in conversion of cholesterol into bile acids, was strongly attenuated in DPP4- fed with a Western diet. Moreover, hepatic expression of bile transporter, ABCB11, was increased, facilitating a higher rate of bile secretion. Mechanistically, we showed that GLP-1 directly reduced basal and LXR-induced cyp7A1 mRNA expression and suppressed cyp7A1 transcription in transient transfection assays in primary hepatocytes. However, GLP-1 and its analog exendin 4 also induced mRNA expression of bile acid transporter ABCC3 in primary rat hepatocyte cultures. CONCLUSIONS: Our data suggest that GLP-1 analogs may serve as a novel therapeutic drug to alleviate obesity-induced liver injury by reducing bile acid synthesis and improving liver bile secretory function.

Lithium-mediated phosphorylation of glycogen synthase kinase-3beta involves PI3 kinase-dependent activation of protein kinase C-alpha.

Lithium, a known mood-stabilizer frequently used in treatment of bipolar disorders, is an effective glycogen synthase kinase-3beta (GSK-3beta) inhibitor. This led to the idea that GSK-3beta is an in vivo target directly inhibited by lithium. As lithium is a weak in vitro inhibitor of GSK-3beta (IC50=2 mM), however, we speculated that it inhibits GSK-3beta via an indirect, yet unknown, mechanism. The present studies show that lithium increased the phosphorylation of a key inhibitory site of GSK-3beta, serine-9 (Ser-9), in HEK293 cells and in PC12 cells. This phosphorylation was significantly reduced by protein kinase C (PKC) inhibitors GF109203X and Ro31-8425, as well as GO6976, an effective inhibitor toward conventional PKC isoforms (cPKC). Consistent with these results, lithium increased PKC-alpha activity approximately twofold in both cell lines. Because PI3 kinase is a potential upstream regulator of cPKC, its inhibition by wortmannin or LY294002 also abolished the lithium-induced serine phosphorylation of GSK-3beta in HEK293 and PC12 cells. Moreover, lithium did not activate PKB, and in addition, its activity was not dependent on the presence of medium inositol nor did it affect the autophosphorylation activity of GSK-3beta. Finally, intracerebroventricular injection of lithium increased GSK-3beta Ser-9 phosphorylation and enhanced PKC-alpha activity 1.8-fold in mouse hippocampus, confirming this lithium response in vivo. Our studies propose a new mechanism by which lithium indirectly inhibits GSK-3beta via phosphatidylinositol 3 kinase- dependent activation of PKC-alpha.