A novel role of bone morphogenetic protein 6 (BMP6) in glucose homeostasis

Pauk, Martina; Bordukalo-Niksic, Tatjana; Brkljačić, Jelena; Paralkar, Vishwas; Brault, Amy; Dumić-Čule, Ivo; Borovečki, Fran; Grgurević, Lovorka; Vukičević, Slobodan

doi:10.1007/s00592-018-1265-1

Cited by 27 publications

(27 citation statements)

References 23 publications

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“…Heterozygous deletion of the type 1 BMP receptor, Bmpr1a causes impaired glucose tolerance [49], while adipocyte-specific receptor deletion does not [50]. Similar salutary effects of glucose homeostasis have been observed in mice treated with BMP6, BMP7, and BMP9 [28,30,31]. BMPs can drive cellular differentiation including potentiation of brown and beige fat activation [47,48,51].…”

Section: Discussionmentioning

confidence: 82%

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Obesity-linked PPARγ S273 phosphorylation promotes insulin resistance through Growth Differentiation Factor 3

Hall

Ramachandran

Roh

et al. 2020

Preprint

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Overnutrition and obesity promote adipose tissue dysfunction, often leading to systemic insulin resistance. The thiazolidinediones (TZDs) are a potent class of insulin-sensitizing drugs and ligands of PPAR that improve insulin sensitivity, but their use is limited due to significant side effects. Recently, we demonstrated a mechanism by which TZDs improve insulin sensitivity distinct from receptor agonism and adipogenesis: reversal of obesity-linked phosphorylation of PPAR at Serine 273. However, the role of this modification has not been tested genetically. Here we demonstrate that mice encoding an allele of PPAR which cannot be phosphorylated at S273 are protected from insulin resistance, without exhibiting differences in body weight or TZDassociated side effects. Indeed, hyperinsulinemic-euglycemic clamp experiments confirm improved insulin sensitivity, as evidenced by increased whole-body glucose uptake. RNA-seq experiments reveal PPAR S273 phosphorylation specifically enhances transcription of Gdf3, a BMP family member. Ectopic expression of Gdf3 is sufficient to induce insulin resistance in lean, healthy mice. We find that Gdf3 can impact metabolism by inhibition of BMP signaling. Together, these results highlight the diabetogenic role of PPAR S273 phosphorylation and focuses attention on a putative target, Gdf3.

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Section: Discussionmentioning

confidence: 82%

“…Members of the TGF- superfamily, including BMPs, GDFs, and TGF- proteins can affect insulin sensitivity, cellular differentiation, and obesity [28][29][30][31]. These proteins typically work either through BMP-type receptors or TGF-−type receptors.…”

Section: Gdf3 Limits Bmp Signalingmentioning

confidence: 99%

Obesity-linked PPARγ S273 phosphorylation promotes insulin resistance through Growth Differentiation Factor 3

Hall

Ramachandran

Roh

et al. 2020

Preprint

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“…In our study, we did not observe gross appearance of HO at the peritoneal injection site with the dose we selected. Moreover, given that previous studies investigating systemic treatment with doses of BMP6 ranging from 1 to 50 ng per gram of mouse weight reported no HO was found , the dose of 10 ng per gram of animal weight seems to be safe and we think there is still room for increasing the dose of injection before safety is compromised. The frequency of injection is another critical variable that should be considered for safety and effectiveness of BMP6 injection.…”

Section: Discussionmentioning

confidence: 92%

Bone Morphogenetic Protein-6 Attenuates Type 1 Diabetes Mellitus-Associated Bone Loss

Wang

Lee

Tsai

et al. 2019

Stem Cells Translational Medicine

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Patients with type 1 diabetes mellitus (T1DM) often suffer from osteopenia or osteoporosis. Although most agree that T1DM‐induced hyperglycemia is a risk factor for progressive bone loss, the mechanisms for the link between T1DM and bone loss still remain elusive. In this study, we found that bone marrow‐derived mesenchymal stem cells (BMSCs) isolated from T1DM donors were less inducible for osteogenesis than those from non‐T1DM donors and further identified a mechanism involving bone morphogenetic protein‐6 (BMP6) that was produced significantly less in BMSCs derived from T1DM donors than that in control cells. With addition of exogenous BMP6 in culture, osteogenesis of BMSCs from T1DM donors was restored whereas the treatment of BMP6 seemed not to affect non‐T1DM control cells. We also demonstrated that bone mineral density (BMD) was reduced in streptozotocin‐induced diabetic mice compared with that in control animals, and intraperitoneal injection of BMP6 mitigated bone loss and increased BMD in diabetic mice. Our results suggest that bone formation in T1DM patients is impaired by reduction of endogenous BMP6, and supplementation of BMP6 enhances osteogenesis of BMSCs to restore BMD in a mouse model of T1DM, which provides insight into the development of clinical treatments for T1DM‐assocaited bone loss. stem cells translational medicine 2019;8:522–534

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“…BMPs have recently been implicated in pancreas development, control of adult glucose homeostasis, energy expenditure by stimulation of brown adipose tissue formation [ 37 ], and the development of diabetic complications [ 38 ]. In particular, BMP-9 [ 39 ] and BMP-6 [ 40 ] improve glycemia and insulin resistance in T2DM mice and regulate glucose metabolism in hepatocytes. An in vivo human study confirmed that circulating BMP-9 levels are significantly higher in healthy subjects than in patients with newly diagnosed T2DM, and found a negative correlation with metabolic control, as assessed by HbA1c and fasting blood glucose [ 41 ].…”

Section: How Bone Active Therapies Affect Glucose Metabolismmentioning

confidence: 99%

The Impact of Antiosteoporotic Drugs on Glucose Metabolism and Fracture Risk in Diabetes: Good or Bad News?

Anastasilakis

Tsourdi

Tabacco

et al. 2021

JCM

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Osteoporosis and diabetes mellitus represent global health problems due to their high, and increasing with aging, prevalence in the general population. Osteoporosis can be successfully treated with both antiresorptive and anabolic drugs. While these drugs are clearly effective in reducing the risk of fracture in patients with postmenopausal and male osteoporosis, it is still unclear whether they may have the same efficacy in patients with diabetic osteopathy. Furthermore, as bone-derived cytokines (osteokines) are able to influence glucose metabolism, it is conceivable that antiosteoporotic drugs may have an effect on glycemic control through their modulation of bone turnover that affects the osteokines’ release. These aspects are addressed in this narrative review by means of an unrestricted computerized literature search in the PubMed database. Our findings indicate a balance between good and bad news. Active bone therapies and their modulation of bone turnover do not appear to play a clinically significant role in glucose metabolism in humans. Moreover, there are insufficient data to clarify whether there are any differences in the efficacy of antiosteoporotic drugs on fracture incidence between diabetic and nondiabetic patients with osteoporosis. Although more studies are required for stronger recommendations to be issued, bisphosphonates appear to be the first-line drug for treatment of osteoporosis in diabetic patients, while denosumab seems preferable for older patients, particularly for those with impaired renal function, and osteoanabolic agents should be reserved for patients with more severe forms of osteoporosis.

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A novel role of bone morphogenetic protein 6 (BMP6) in glucose homeostasis

Cited by 27 publications

References 23 publications

Obesity-linked PPARγ S273 phosphorylation promotes insulin resistance through Growth Differentiation Factor 3

Obesity-linked PPARγ S273 phosphorylation promotes insulin resistance through Growth Differentiation Factor 3

Bone Morphogenetic Protein-6 Attenuates Type 1 Diabetes Mellitus-Associated Bone Loss

The Impact of Antiosteoporotic Drugs on Glucose Metabolism and Fracture Risk in Diabetes: Good or Bad News?

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