DOCK5 regulates energy balance and hepatic insulin sensitivity by targeting mTORC1 signaling

Aim Follistatin‐like‐1 (FSTL‐1) is considered to be a novel cytokine, and it is associated with metabolic diseases. However, it is necessary to investigate further the association of FSTL‐1 with metabolic syndrome (MetS) and insulin resistance (IR). We performed a cross‐sectional study to investigate the associated of circulating FSTL‐1 with the MetS. Materials and methods A cross‐sectional study was performed in 487 Chinese people, including 231 control subjects and 256 patients with MetS. Bioinformatics analysis was used to determine the protein and pathways associated with FSTL‐1. The protein and protein interaction (PPI) network was constructed and analysed. Serum FSTL‐1 concentrations were determined by an ELISA assay. The association of FSTL‐1 with MetS components and IR was assessed. Results Serum FSTL‐1 levels were markedly higher in patients with newly diagnosed MetS than in controls (7.5 [5.6‐9.2] vs 5.8 [5.0‐7.7] μg/L, P < .01). According to bioinformatics analysis, the top high‐degree genes were identified as the core genes, including SPARCL1, CYR61, LTBP1, IL‐6, BMP2, BMP4, FBN1, FN1 CHRDL1 and FSTL‐3. These genes are mainly enriched in pathways including TGF‐ß, AGE‐RAGE signalling pathway in diabetic complications, and Hippo signalling pathways; in basal cell carcinoma, cytokine‐cytokine receptor interaction and in amoebic and Yersinia infections. Furthermore, serum FSTL‐1 levels were positively associated with fasting plasma glucose (FPG), waist circumference (WC), blood pressure, triglyceride levels and visceral adiposity index (VAI). We found that serum FSTL‐1 levels were markedly associated with MetS and IR by binary logistic regression analysis. Conclusions We conclude that FSTL‐1 may be a novel cytokine related to MetS and IR.

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“…The magnetized beads were washed, and the supernatant was discarded. The proteins were immunoblotted using an anti‐BMP4 antibody 26 …”

Section: Methodsmentioning

confidence: 99%

“…Cultured cells were maintained in a humidified incubator with 5% carbon dioxide and 95% air at 37°C. pCDNA3.1‐ FSTL‐1 and pCMV6‐ BMP4 were constructed by Gene Create Inc. (Wuhan China), as previously reported 26 …”

Section: Methodsmentioning

confidence: 99%

Association between circulating follistatin‐like‐1 and metabolic syndrome in middle‐aged and old population: A cross‐sectional study

Yang

Dai

Hu³

et al. 2020

Diabetes Metabolism Res

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“…DOCK5, one of the least studied family members, preferentially activates RAC1 over other RHO or RAC GTPases ( 91 ). It is predominantly present in the brain, lung, and bone tissues such as osteoclasts, but is also present in other tissues ( 92 ). One such tissue is the liver, where DOCK5 activity increases energy expenditure and insulin signaling by impeding mammalian target of rapamycin complex (mTORC1), linking DOCK5 downregulation to obesity ( 93 ).…”

Section: Biological Function and Disease Associations Of The Dock Gefsmentioning

confidence: 99%

RHO to the DOCK for GDP disembarking: Structural insights into the DOCK GTPase nucleotide exchange factors

Thompson

Bitsina

Gray

et al. 2021

Journal of Biological Chemistry

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The human dedicator of cytokinesis (DOCK) family consists of 11 structurally conserved proteins that serve as atypical RHO guanine nucleotide exchange factors (RHO GEFs). These regulatory proteins act as mediators in numerous cellular cascades that promote cytoskeletal remodeling, playing roles in various crucial processes such as differentiation, migration, polarization, and axon growth in neurons. At the molecular level, DOCK DHR2 domains facilitate nucleotide dissociation from small GTPases, a process that is otherwise too slow for rapid spatiotemporal control of cellular signaling. Here, we provide an overview of the biological and structural characteristics for the various DOCK proteins and describe how they differ from other RHO GEFs and between DOCK subfamilies. The expression of the family varies depending on cell or tissue type, and they are consequently implicated in a broad range of disease phenotypes, particularly in the brain. A growing body of available structural information reveals the mechanism by which the catalytic DHR2 domain elicits nucleotide dissociation and also indicates strategies for the discovery and design of high-affinity small-molecule inhibitors. Such compounds could serve as chemical probes to interrogate the cellular function and provide starting points for drug discovery of this important class of enzymes.

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“…[14][15][16] DOCK5 is expressed in osteoclasts, myoblasts, hepatocytes, the nervous system, and lymphocytes, and is involved in the regulation of bone resorption, myoblasts fusion, insulin resistance in the liver, and B cell development. [16][17][18][19][20] DOCK6 is mainly expressed in sensory neurons and regulates the axonal extension. 21 DOCK7 is expressed in some progenitor cells and is associated with neuronal differentiation.…”

Section: Introductionmentioning

confidence: 99%

“…DOCK4 is expressed in skeletal muscle, nervous system, ovary, and prostate 14–16 . DOCK5 is expressed in osteoclasts, myoblasts, hepatocytes, the nervous system, and lymphocytes, and is involved in the regulation of bone resorption, myoblasts fusion, insulin resistance in the liver, and B cell development 16–20 . DOCK6 is mainly expressed in sensory neurons and regulates the axonal extension 21 .…”

Section: Introductionmentioning

confidence: 99%

The regulation of DOCK family proteins on T and B cells

Chen

Chen²,

Yin

et al. 2020

Journal of Leukocyte Biology

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The dedicator of cytokinesis (DOCK) family proteins consist of 11 members, each of which contains 2 domains, DOCK homology region (DHR)-1 and DHR-2, and as guanine nucleotide exchange factors, they mediate activation of small GTPases. Both DOCK2 and DOCK8 deficiencies in humans can cause severe combined immunodeficiency, but they have different characteristics. DOCK8 defect mainly causes high IgE, allergic disease, refractory skin virus infection, and increased incidence of malignant tumor, whereas DOCK2 defect mainly causes early-onset, invasive infection with less atopy and increased IgE. However, the underlying molecular mechanisms causing the disease remain unclear. This paper discusses the role of DOCK family proteins in regulating B and T cells, including development, survival, migration, activation, immune tolerance, and immune functions. Moreover, related signal pathways or molecule mechanisms are also described in this review. A greater understanding of DOCK family proteins and their regulation of lymphocyte functions may facilitate the development of new therapeutics for immunodeficient patients and improve their prognosis.

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DOCK5 regulates energy balance and hepatic insulin sensitivity by targeting mTORC1 signaling

Cited by 17 publications

References 52 publications

Association between circulating follistatin‐like‐1 and metabolic syndrome in middle‐aged and old population: A cross‐sectional study

Association between circulating follistatin‐like‐1 and metabolic syndrome in middle‐aged and old population: A cross‐sectional study

RHO to the DOCK for GDP disembarking: Structural insights into the DOCK GTPase nucleotide exchange factors

The regulation of DOCK family proteins on T and B cells

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