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Query: UMLS:C0011860 (
type 2 diabetes
)
57,723
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Grb14
belongs to the Grb7 family of molecular adapters and was identified as an inhibitor of insulin signaling.
Grb14
binds to activated insulin receptors (IR) and inhibits their catalytic activity. To gain more insight into the
Grb14
molecular mechanism of action, we generated various mutants and studied the
Grb14
-IR interaction using coimmunoprecipitation and bioluminescence resonance energy transfer (BRET) experiments. Biological activity was further analyzed using the Xenopus oocyte model and a functional complementation assay measuring cellular proliferation rate in
Grb14
knockout mouse embryonic fibroblasts. These studies identified two important interaction sites,
Grb14
L404-IR L1038 and
Grb14
R385-IR K1168, involving the IR alphaC-helix and activation loop, respectively. Interestingly, the former involves residues that are likely to be crucial for the specificity of IR binding with regard to other members of the Grb7 family. In addition, mutation of the
Grb14
-S370 residue suggested that its phosphorylation status controlled the biological activity of the protein. We further demonstrated that insulin-induced
Grb14
-PDK1 interaction is required in addition to
Grb14
-IR binding to mediate maximal inhibition of insulin signaling. This study provides important insights into the molecular determinants of
Grb14
action by demonstrating that
Grb14
regulates insulin action at two levels, through IR binding and by interfering with downstream pathways. Indeed, a precise knowledge of the molecular mechanism of insulin signaling inhibition by
Grb14
is a prerequisite for the development of insulin-sensitizing molecules to treat pathophysiological states such as obesity or
type 2 diabetes
.
...
PMID:Molecular determinants of Grb14-mediated inhibition of insulin signaling. 1935 42
Growth factor receptor bound (Grb)10 and
Grb14
are closely related adaptor proteins that bind directly to the insulin receptor (IR) and regulate insulin-induced IR tyrosine phosphorylation and signaling to IRS-1 and Akt. Grb10- and
Grb14
-deficient mice both exhibit improved whole-body glucose homeostasis as a consequence of enhanced insulin signaling and, in the case of the former, altered body composition. However, the combined physiological role of these adaptors has remained undefined. In this study we utilize compound gene knockout mice to demonstrate that although deficiency in one adaptor can enhance insulin-induced IRS-1 phosphorylation and Akt activation, insulin signaling is not increased further upon dual ablation of Grb10 and
Grb14
. Context-dependent limiting mechanisms appear to include IR hypophosphorylation and decreased IRS-1 expression. In addition, the compound knockouts exhibit an increase in lean mass comparable to Grb10-deficient mice, indicating that this reflects a regulatory function specific to Grb10. However, despite the absence of additive effects on insulin signaling and body composition, the double-knockout mice are protected from the impaired glucose tolerance that results from high-fat feeding, whereas protection is not observed with animals deficient for individual adaptors. These results indicate that, in addition to their described effects on IRS-1/Akt, Grb10 and
Grb14
may regulate whole-body glucose homeostasis by additional mechanisms and highlight these adaptors as potential therapeutic targets for amelioration of the insulin resistance associated with
type 2 diabetes
.
...
PMID:Dual ablation of Grb10 and Grb14 in mice reveals their combined role in regulation of insulin signaling and glucose homeostasis. 1954 46
The fibroblast growth factor receptor 4 (FGFR4)-R388 single-nucleotide polymorphism has been associated with cancer risk and prognosis. Here we show that the FGFR4-R388 allele yields a receptor variant that preferentially promotes STAT3/5 signaling. This STAT activation transcriptionally induces
Grb14
in pancreatic endocrine cells to promote insulin secretion. Knockin mice with the FGFR4 variant allele develop pancreatic islets that secrete more insulin, a feature that is reversed through
Grb14
deletion and enhanced with FGF19 administration. We also show in humans that the FGFR4-R388 allele enhances islet function and may protect against
type 2 diabetes
. These data support a common genetic link underlying cancer and hyperinsulinemia.
...
PMID:The cancer-associated FGFR4-G388R polymorphism enhances pancreatic insulin secretion and modifies the risk of diabetes. 3302 78
The action of insulin on metabolism and cell growth is mediated by a specific receptor tyrosine kinase, which, through phosphorylation of several substrates, triggers the activation of two major signaling pathways, the phosphatidylinositol 3-kinase (PI3-K)/Akt pathway and the Ras/extracellular signal-regulated kinase (ERK) pathway. Insulin-induced activation of the receptor and downstream signaling is also subjected to a negative feedback control involving several mechanisms, among which the interaction of the insulin receptor and its substrates with inhibitory proteins. After summarizing the major mechanisms underlying the activation and attenuation of insulin signaling, this review focuses on its control by the
Grb14
adaptor protein.
Grb14
has been identif-ied as an inhibitor of insulin signaling and action, and is involved in insulin resistance associated with
type 2 diabetes
and obesity. Studies on the molecular mechanism of action of
Grb14
have shown that, through interaction with the activated insulin receptor,
Grb14
inhibits its catalytic activity and the activation of downstream signaling. However, the consequences of
Grb14
gene invalidation are complex and tissue-specific, and some effects of
Grb14
on insulin signaling appear to be linked to its interaction with effector proteins downstream the insulin receptor. Pharmacological inhibition of
Grb14
should allow to enhance insulin sensitivity and improve energy homeostasis in insulin-resistant states.
...
PMID:[Control of insulin signalisation and action by the Grb14 protein]. 2519 May 72
Insulin resistance increases patients' risk of developing
type 2 diabetes
(T2D), non-alcoholic steatohepatitis (NASH) and a host of other comorbidities including cardiovascular disease and cancer. At the molecular level, insulin exerts its function through the insulin receptor (IR), a transmembrane receptor tyrosine kinase. Data from human genetic studies have shown that
Grb14
functions as a negative modulator of IR activity, and the germline
Grb14
-knockout (KO) mice have improved insulin signaling in liver and skeletal muscle. Here, we show that
Grb14
knockdown in liver, white adipose tissues, and heart with an AAV-shRNA (Grb14-shRNA) improves glucose homeostasis in diet-induced obese (DIO) mice. A previous report has shown that germline deletion of
Grb14
in mice results in cardiac hypertrophy and impaired systolic function, which could severely limit the therapeutic potential of targeting
Grb14
. In this report, we demonstrate that there are no significant changes in cardiac function as measured by echocardiography in the
Grb14
-knockdown mice fed a high-fat diet for a period of four months. While additional studies are needed to further confirm the efficacy and to de-risk potential negative cardiac effects in preclinical models, our data support the therapeutic strategy of inhibiting
Grb14
to treat diabetes and related conditions.
...
PMID:Inhibition of Grb14, a negative modulator of insulin signaling, improves glucose homeostasis without causing cardiac dysfunction. 3209 31
