Plasma FGF21 is increased in T2D patients, and positively correlated with fasting insulin and BMI. However, FGF21 has direct effects in enhancing skeletal muscle glucose uptake, providing additional points of regulation that may contribute to the beneficial effects of FGF21 on glucose homeostasis. Whether increased plasma FGF21 in T2D is a compensatory mechanism to increase glucose metabolism remains to be determined.
Protein tyrosine phosphatase 1B (PTP1B) attenuates insulin signaling by catalyzing dephosphorylation of insulin receptors (IR) and is an attractive target of potential new drugs for treating the insulin resistance that is central to type II diabetes. Several analogues of cholecystokinin(26)(-)(33) (CCK-8) were found to be surprisingly potent inhibitors of PTP1B, and a common N-terminal tripeptide, N-acetyl-Asp-Tyr(SO(3)H)-Nle-, was shown to be necessary and sufficient for inhibition. This tripeptide was modified to reduce size and peptide character, and to replace the metabolically unstable sulfotyrosyl group. This led to the discovery of a novel phosphotyrosine bioisostere, 2-carboxymethoxybenzoic acid, and to analogues that were >100-fold more potent than the CCK-8 analogues and >10-fold selective for PTP1B over two other PTP enzymes (LAR and SHP-2), a dual specificity phosphatase (cdc25b), and a serine/threonine phosphatase (calcineurin). These inhibitors disrupted the binding of PTP1B to activated IR in vitro and prevented the loss of tyrosine kinase (IRTK) activity that accompanied PTP1B-catalyzed dephosphorylation of IR. Introduction of these poorly cell permeant inhibitors into insulin-treated cells by microinjection (oocytes) or by esterification to more lipophilic proinhibitors (3T3-L1 adipocytes and L6 myocytes) resulted in increased potency, but not efficacy, of insulin. In some instances, PTP1B inhibitors were insulin-mimetic, suggesting that in unstimulated cells PTP1B may suppress basal IRTK activity. X-ray crystallography of PTP1B-inhibitor complexes revealed that binding of an inhibitor incorporating phenyl-O-malonic acid as a phosphotyrosine bioisostere occurred with the mobile WPD loop in the open conformation, while a closely related inhibitor with a 2-carboxymethoxybenzoic acid bioisostere bound with the WPD loop closed, perhaps accounting for its superior potency. These CCK-derived peptidomimetic inhibitors of PTP1B represent a novel template for further development of potent, selective inhibitors, and their cell activity further justifies the selection of PTP1B as a therapeutic target.
The present study was performed to compare glucocorticoid levels in obese KKA (y) and ob/ob mice with those in normal C57BL/6J mice, and the effect of high-fat diet on glucocorticoids in KKA (y) and ob/ob mice. Liver, mesenteric and epididymal adipose tissue corticosterone and 11-dehydrocorticosterone concentrations as well as circulating corticosterone concentrations were measured. The KKA (y) and ob/ob mice displayed elevated serum corticosterone levels compared to normal mice, 2.0 to 2.8-fold in KKA (y), and 11 to 16-fold in ob/ob mice. Liver corticosterone levels were 3.0 to 5.1 and 6.2 to 8.1-fold, and 11-dehydrocorticosterone levels were 3.4 to 3.6 and 6.7 to 8.2-fold higher in KKA (y) and ob/ob mice compared to normal mice. Mesenteric adipose tissue corticosterone levels were 2.7 to 4.2-fold higher, and 11-dehydrocorticosterone levels were 2 to 4-fold higher in ob/ob than in KKA (y) mice. Epididymal adipose tissue corticosterone levels were 3.0 to 6.2-fold higher, and 11-dehydrocorticosterone levels were 1.8 to 2.0-fold higher in ob/ob than in KKA (y) mice. Circulating, hepatic, and mesenteric and epididymal adipose tissue glucocorticoid concentrations were low in the normal C57BL/6J mouse, high in the ob/ob mouse, and intermediate in the KKA (y) mouse. 11beta-hydroxysteroid dehydrogenase type 1 (11beta-HSD1) mRNA levels were doubled in ob/ ob compared to KKA (y) mice in all three tissues. Glucocorticoid concentrations correlated with 11beta-HSD1 mRNA levels. High-fat diet had no effect on the tissue glucocorticoid concentrations.
In a previous study we found that clavicular lesions in chronic recurrent multifocal osteomyelitis (CRMO) in young patients was associated with palmoplantar pustulosis (PPP). In this work the relationship between sternoclavicular lesions and PPP was studied in a group of adult patients. The sternoclavicular region of 52 patients with PPP and 25 control persons was examined by tomography. Among the PPP patients there were inflammatory lesions in the sternal synchondroses in 3 patients. There were no such lesions in the controls. In this unselected population of adult patients there was thus no definite association between PPP and sterno-clavicular lesions. In young patients on the other hand, CRMO with clavicular lesions may be another, probably noninfectious, cause of PPP.
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