Globular Adiponectin as a Complete Mesoangioblast Regulator: Role in Proliferation, Survival, Motility, and Skeletal Muscle Differentiation
15 Mar 2010-Molecular Biology of the Cell (American Society for Cell Biology)-Vol. 21, Iss: 6, pp 848-859
TL;DR: In vivo experiments confirm that globular adiponectin increases the survival, engraftment, and localization to muscle of mesoangioblasts in α-sarcoglycan-null mice.
Abstract: Mesoangioblasts are progenitor endowed with multipotent mesoderm differentiation ability. Despite the promising results obtained with mesoangioblast transplantation in muscle dystrophy, an improvement of their efficient engrafting and survival within damaged muscles, as well as their ex vivo activation/expansion and commitment toward myogenic lineage, is highly needed and should greatly increase their therapeutic potential. We show that globular adiponectin, an adipokine endowed with metabolic and differentiating functions for muscles, regulates vital cues of mesoangioblast cell biology. The adipokine drives mesoangioblasts to entry cell cycle and strongly counteracts the apoptotic process triggered by growth factor withdrawal, thereby serving as an activating and prosurvival stem cell factor. In addition, adiponectin provides a specific protection against anoikis, the apoptotic death due to lack of anchorage to extracellular matrix, suggesting a key protective role for these nonresident stem cells after systemic injection. Finally, adiponectin behaves as a chemoattractive factor toward mature myotubes and stimulates their differentiation toward the skeletal muscle lineage, serving as a positive regulator in mesoangioblast homing to injured or diseased muscles. We conclude that adiponectin exerts several advantageous effects on mesoangioblasts, potentially valuable to improve their efficacy in cell based therapies of diseased muscles.
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TL;DR: This review aims to discuss the emerging concepts related to muscle progenitor cells, focusing on the identification and characterization of distinct progentitor cell populations, and the impact of obesity and T2DM on these cells.
Abstract: In addition to its primary function to provide movement and maintain posture, the skeletal muscle plays important roles in energy and glucose metabolism. In healthy humans, skeletal muscle is the major site for postprandial glucose uptake and impairment of this process contributes to the pathogenesis of type 2 diabetes mellitus (T2DM). A key component to the maintenance of skeletal muscle integrity and plasticity is the presence of muscle progenitor cells, including satellite cells, fibroadipogenic progenitors, and some interstitial progenitor cells associated with vessels (myo-endothelial cells, pericytes, and mesoangioblasts). In this review, we aim to discuss the emerging concepts related to these progenitor cells, focusing on the identification and characterization of distinct progenitor cell populations, and the impact of obesity and T2DM on these cells. The recent advances in stem cell therapies by targeting diabetic and obese muscle are also discussed.
34 citations
TL;DR: Globular adiponectin (gAd), positively affects several features of muscle satellite cells, including the hormone among factors participating in muscle regeneration, and adds a further role for gAd in skeletal muscle.
Abstract: Regeneration of adult injured skeletal muscle is due to activation of satellite cells, a population of stem cells resident beneath the basal lamina. Thus, information on soluble factors affecting satellite cell activation, as well as migration towards injury and fusion into new myofibers are essential. Here, we show that globular adiponectin (gAd), positively affects several features of muscle satellite cells. gAd activates satellite cells to exit quiescence and increases their recruitment towards myotubes. gAd elicits in satellite cells a specific motility program, involving activation of the small GTPase Rac1, as well as expression of Snail and Twist transcription factors driving a proteolytic motility, useful to reach the site of injury. We show that satellite cells produce autocrine full length adiponectin (fAd), which is converted to gAd by activated macrophages. In turns, gAd concurs to attract to the site of injury both satellite cells and macrophages and induces myogenesis in muscle satellite cells. Thus, these findings add a further role for gAd in skeletal muscle, including the hormone among factors participating in muscle regeneration.
33 citations
TL;DR: Pretreatment of dmECFC with gAcrp enhanced the functional capacity of ECFC in vitro and in vivo in normoglycemic and hyperglycemic environments and may be a novel approach to counteract their functional impairment in diabetes.
Abstract: OBJECTIVE It has been shown that vascular progenitors from patients with diabetes are dysfunctional. However, therapeutic strategies to counteract their reduced functional capacity are still lacking. Because adiponectin has reported salutary effects on endothelial function, we investigated the functional effects of globular adiponectin (gAcrp), the active domain of adiponectin, on isolated endothelial colony-forming cells (ECFC). RESEARCH DESIGN AND METHODS ECFC were isolated from peripheral blood of type 2 diabetic patients (dmECFC) and compared with ECFC of healthy young volunteers (yECFC) and nondiabetic age-matched control subjects (hECFC). Cells were treated with gAcrp for 48 h followed by assessment of cell counts, cell cycle analysis, and migration capacity. For in vivo evaluation, human ECFC were injected into normoglycemic or streptozotocin-induced hyperglycemic nu/nu mice after hind limb ischemia. RESULTS Whereas dmECFC were functionally impaired compared with yECFC and hECFC, gAcrp significantly enhanced their in vitro proliferation and migratory activity. In vitro effects were significantly stronger in hECFC compared with dmECFC and were mediated through the cyclooxygenase-2 pathway. Most important, however, we observed a profound and sustained increase of the in vivo neovascularization in mice receiving gAcrp-pretreated dmECFC compared with untreated dmECFC under both normoglycemic and hyperglycemic conditions. CONCLUSIONS Pretreatment of ECFC with gAcrp enhanced the functional capacity of ECFC in vitro and in vivo in normoglycemic and hyperglycemic environments. Therefore, preconditioning of dmECFC with gAcrp may be a novel approach to counteract their functional impairment in diabetes.
30 citations
TL;DR: Mechanical loading, which could increase skeletal muscle mass, might be a useful stimulus for the up-regulations of adiponectin and its related molecules in skeletal muscle.
Abstract: The purpose of this study was to investigate the expression level of adiponectin and its related molecules in hypertrophied and atrophied skeletal muscle in mice. The expression was also evaluated in C2C12 myoblasts and myotubes. Both mRNA and protein expression of adiponectin, mRNA expression of adiponectin receptor (AdipoR) 1 and AdipoR2, and protein expression of adaptor protein containing pleckstrin homology domain, phosphotyrosine binding domain, and leucine zipper motif 1 (APPL1) were observed in C2C12 myoblasts. The expression levels of these molecules in myotubes were higher than those in myoblasts. The expression of adiponectin-related molecules in soleus muscle was observed at mRNA (adiponectin, AdipoR1, AdipoR2) and protein (adiponectin, APPL1) levels. The protein expression levels of adiponectin and APPL1 were up-regulated by 3 weeks of functional overloading. Down-regulation of AdipoR1 mRNA, but not AdipoR2 mRNA, was observed in atrophied soleus muscle. The expression of adiponectin protein, AdipoR1 mRNA, and APPL1 protein was up-regulated during regrowth of unloading-associated atrophied soleus muscle. Mechanical loading, which could increase skeletal muscle mass, might be a useful stimulus for the up-regulations of adiponectin and its related molecules in skeletal muscle.
30 citations
TL;DR: It is demonstrated that globular adiponectin (gAd) activates autophagy in skeletal muscle myoblasts via an AMPK-dependent mechanism and that gAd-activatedAutophagy drives the myogenic properties of this hormone.
28 citations
Cites background or result from "Globular Adiponectin as a Complete ..."
...In particular, gAd promotes myogenesis inmyoblasts [10], satellite cells [11], and induces migration and muscle differentiation in the non-resident muscle precursors, mesoangioblasts [13]....
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...In accordance with our previous findings showing that gAd elicits a motile program in satellite cells [11] and in mesoangioblasts [13], we report that gAd elicits a motile program in myoblasts through a mechanism dependent on autophagy activation....
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...The involvement of adiponectin inmuscle health is supported by our previous results showing that the ex vivo treatment with gAd protects mesoangioblasts from in vivo apoptosis, leading to increased engraftment of the cells in the muscles of dystrophic mice [13]....
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...In muscle precursor cells, gAd induces different effects ranging from metalloproteinase production, migration, apoptosis inhibition, and myogenesis [11,13]....
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...Since gAd promotes myogenesis in muscle precursor cells [10,11,13], we then investigated the involvement of gAd-activated autophagy in the pro-differentiating function of the hormone....
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References
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TL;DR: The 2-Delta Delta C(T) method as mentioned in this paper was proposed to analyze the relative changes in gene expression from real-time quantitative PCR experiments, and it has been shown to be useful in the analysis of realtime, quantitative PCR data.
139,407 citations
TL;DR: It is concluded that decreased adiponectin is implicated in the development of insulin resistance in mouse models of both obesity and lipoatrophy and that the replenishment of adiponECTin might provide a novel treatment modality for insulin resistance and type 2 diabetes.
Abstract: Adiponectin is an adipocyte-derived hormone. Recent genome-wide scans have mapped a susceptibility locus for type 2 diabetes and metabolic syndrome to chromosome 3q27, where the gene encoding adiponectin is located. Here we show that decreased expression of adiponectin correlates with insulin resistance in mouse models of altered insulin sensitivity. Adiponectin decreases insulin resistance by decreasing triglyceride content in muscle and liver in obese mice. This effect results from increased expression of molecules involved in both fatty-acid combustion and energy dissipation in muscle. Moreover, insulin resistance in lipoatrophic mice was completely reversed by the combination of physiological doses of adiponectin and leptin, but only partially by either adiponectin or leptin alone. We conclude that decreased adiponectin is implicated in the development of insulin resistance in mouse models of both obesity and lipoatrophy. These data also indicate that the replenishment of adiponectin might provide a novel treatment modality for insulin resistance and type 2 diabetes.
4,845 citations
TL;DR: It is shown that phosphorylation and activation of the 5′-AMP-activated protein kinase (AMPK) are stimulated with globular and full-length Ad in skeletal muscle and only with full- lengths Ad in the liver, indicating that stimulation of glucose utilization and fatty-acid oxidation by Ad occurs through activation of AMPK.
Abstract: Adiponectin (Ad) is a hormone secreted by adipocytes that regulates energy homeostasis and glucose and lipid metabolism. However, the signaling pathways that mediate the metabolic effects of Ad remain poorly identified. Here we show that phosphorylation and activation of the 5'-AMP-activated protein kinase (AMPK) are stimulated with globular and full-length Ad in skeletal muscle and only with full-length Ad in the liver. In parallel with its activation of AMPK, Ad stimulates phosphorylation of acetyl coenzyme A carboxylase (ACC), fatty-acid oxidation, glucose uptake and lactate production in myocytes, phosphorylation of ACC and reduction of molecules involved in gluconeogenesis in the liver, and reduction of glucose levels in vivo. Blocking AMPK activation by dominant-negative mutant inhibits each of these effects, indicating that stimulation of glucose utilization and fatty-acid oxidation by Ad occurs through activation of AMPK. Our data may provide a novel paradigm that an adipocyte-derived antidiabetic hormone, Ad, activates AMPK, thereby directly regulating glucose metabolism and insulin sensitivity in vitro and in vivo.
4,298 citations
TL;DR: It is confirmed that obesity and type 2 diabetes are associated with low plasma adiponectin concentrations in different ethnic groups and indicate that the degree of hypoadiponectinemia is more closely related to thedegree of insulin resistance and hyperinsulinemia than to the level of adiposity and glucose intolerance.
Abstract: Plasma concentrations of adiponectin, a novel adipose-specific protein with putative antiatherogenic and antiinflammatory effects, were found to be decreased in Japanese individuals with obesity, type 2 diabetes, and cardiovascular disease, conditions commonly associated with insulin resistance and hyperinsulinemia. To further characterize the relationship between adiponectinemia and adiposity, insulin sensitivity, insulinemia, and glucose tolerance, we measured plasma adiponectin concentrations, body composition (dual-energy x-ray absorptiometry), insulin sensitivity (M, hyperinsulinemic clamp), and glucose tolerance (75-g oral glucose tolerance test) in 23 Caucasians and 121 Pima Indians, a population with a high propensity for obesity and type 2 diabetes. Plasma adiponectin concentration was negatively correlated with percent body fat (r = -0.43), waist-to-thigh ratio (r = -0.46), fasting plasma insulin concentration (r = -0.63), and 2-h glucose concentration (r = -0.38), and positively correlated with M (r = 0.59) (all P < 0.001); all relations were evident in both ethnic groups. In a multivariate analysis, fasting plasma insulin concentration, M, and waist-to-thigh ratio, but not percent body fat or 2-h glucose concentration, were significant independent determinates of adiponectinemia, explaining 47% of the variance (r(2) = 0.47). Differences in adiponectinemia between Pima Indians and Caucasians (7.2 +/- 2.6 vs. 10.2 +/- 4.3 microg/ml, P < 0.0001) and between Pima Indians with normal, impaired, and diabetic glucose tolerance (7.5 +/- 2.7, 6.1 +/- 2.0, 5.5 +/- 1.6 microg/ml, P < 0.0001) remained significant after adjustment for adiposity, but not after additional adjustment for M or fasting insulin concentration. These results confirm that obesity and type 2 diabetes are associated with low plasma adiponectin concentrations in different ethnic groups and indicate that the degree of hypoadiponectinemia is more closely related to the degree of insulin resistance and hyperinsulinemia than to the degree of adiposity and glucose intolerance.
3,529 citations
"Globular Adiponectin as a Complete ..." refers background in this paper
...The peculiarity of adiponectin compared with sphingosine 1-phosphate is that the adipokine is produced by adipose tissue in an inverse relationship with fat mass, and its level is strongly decreased in diabetic patients (Weyer et al., 2001; Rasouli and Kern, 2008)....
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TL;DR: The cloning of complementary DNAs encoding adiponectin receptors 1 and 2 by expression cloning supports the conclusion that they serve as receptors for globular and full-length adiponECTin, and that they mediate increased AMP kinase and PPAR-α ligand activities, as well as fatty-acid oxidation and glucose uptake by adiponectionin.
Abstract: Adiponectin (also known as 30-kDa adipocyte complement-related protein; Acrp30) is a hormone secreted by adipocytes that acts as an antidiabetic and anti-atherogenic adipokine. Levels of adiponectin in the blood are decreased under conditions of obesity, insulin resistance and type 2 diabetes. Administration of adiponectin causes glucose-lowering effects and ameliorates insulin resistance in mice. Conversely, adiponectin-deficient mice exhibit insulin resistance and diabetes. This insulin-sensitizing effect of adiponectin seems to be mediated by an increase in fatty-acid oxidation through activation of AMP kinase and PPAR-alpha. Here we report the cloning of complementary DNAs encoding adiponectin receptors 1 and 2 (AdipoR1 and AdipoR2) by expression cloning. AdipoR1 is abundantly expressed in skeletal muscle, whereas AdipoR2 is predominantly expressed in the liver. These two adiponectin receptors are predicted to contain seven transmembrane domains, but to be structurally and functionally distinct from G-protein-coupled receptors. Expression of AdipoR1/R2 or suppression of AdipoR1/R2 expression by small-interfering RNA supports our conclusion that they serve as receptors for globular and full-length adiponectin, and that they mediate increased AMP kinase and PPAR-alpha ligand activities, as well as fatty-acid oxidation and glucose uptake by adiponectin.
3,013 citations