In Vitro and in Vivo Effects of Adiponectin on Bone

Williams, Graham V.; Wang, Yudong; Callon, Karen E.; Watson, Maureen; Lin, Jian-Ming; Lam, Janice; Costa, Jerome; Orpe, A.; Broom, Neil D.; Naot, Dorit; Reid, Ian R.; Cornish, Jillian

doi:10.1210/en.2008-1639

Cited by 191 publications

(99 citation statements)

References 55 publications

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“…The hormonal regulation of AMPK activation in bone has not been extensively studied. Adiponectin, which increases osteoblast proliferation and differentiation (Oshima et al 2005) but has controversial effect on bone mass in vivo (Williams et al 2009), can stimulate AMPK phosphorylation in MC3T3-E1 osteoblastic cells (Kanazawa et al 2007). We showed that AMPK phosphorylation and activity in ROS17/2.8 cells was stimulated by ghrelin (Shah et al 2010), a hormone known to stimulate osteoblast differentiation and function (Maccarinelli et al 2005, van der Velde et al 2008.…”

Section: Subunit Expression and Ampk Regulation In Bone Cellsmentioning

confidence: 73%

“…The bone loss in age-related osteoporosis is associated with more adipogenesis and less bone formation (Pei & Tontonoz 2004). Second, there are direct actions on bone of hormones produced by adipocytes, such as adiponectin and leptin, as well as of hormones released by the pancreas, gut and pituitary (Cornish et al 1996, Maccarinelli et al 2005, Williams et al 2009). In addition, the recent discovery that leptin can inhibit bone formation through hypothalamic and sympathetic nervous system relays , Takeda et al 2002, Elefteriou et al 2005 has demonstrated that bone can not only be directly affected by hormones which have receptors on bone cells, but can also be influenced by the same hormones acting on receptors in the central nervous system (CNS).…”

Section: Introductionmentioning

confidence: 99%

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AMP-activated protein kinase pathway and bone metabolism

Jeyabalan

Shah²,

Viollet³

et al. 2011

Journal of Endocrinology

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There is increasing evidence that osteoporosis, similarly to obesity and diabetes, could be another disorder of energy metabolism. AMP-activated protein kinase (AMPK) has emerged over the last decade as a key sensing mechanism in the regulation of cellular energy homeostasis and is an essential mediator of the central and peripheral effects of many hormones on the metabolism of appetite, fat and glucose. Novel work demonstrates that the AMPK signaling pathway also plays a role in bone physiology. Activation of AMPK promotes bone formation in vitro and the deletion of a or b subunit of AMPK decreases bone mass in mice. Furthermore, AMPK activity in bone cells is regulated by the same hormones that regulate food intake and energy expenditure through AMPK activation in the brain and peripheral tissues. AMPK is also activated by antidiabetic drugs such as metformin and thiazolidinediones (TZDs), which also impact on skeletal metabolism. Interestingly, TZDs have detrimental skeletal side effects, causing bone loss and increasing the risk of fractures, although the role of AMPK mediation is still unclear. These data are presented in this review that also discusses the potential roles of AMPK in bone as well as the possibility for AMPK to be a future therapeutic target for intervention in osteoporosis.

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Section: Subunit Expression and Ampk Regulation In Bone Cellsmentioning

confidence: 73%

Section: Introductionmentioning

confidence: 99%

AMP-activated protein kinase pathway and bone metabolism

Jeyabalan

Shah²,

Viollet³

et al. 2011

Journal of Endocrinology

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show abstract

“…In vitro studies also found that this adipokine promotes osteoblastogenesis but negatively regulates adipogenesis [116][117][118]. However, in vivo studies with adiponectin-deficient mice showed agedependent increase in trabecula volume and number suggesting that adiponectin has both direct and indirect effects on bone in vivo, and is also a likely contributor to bone mass [118]. The role of other adipokines in MSC differentiation is less clear, however, recent findings suggest that most of these adipokines may play a role in regulating bone metabolism and remodeling [98].…”

Section: Excessive Adipose Tissuementioning

confidence: 95%

“…Adiponectin is another adipose secreted adipokine with critical roles in glucose metabolism and energy homeostasis [115]. In vitro studies also found that this adipokine promotes osteoblastogenesis but negatively regulates adipogenesis [116][117][118]. However, in vivo studies with adiponectin-deficient mice showed agedependent increase in trabecula volume and number suggesting that adiponectin has both direct and indirect effects on bone in vivo, and is also a likely contributor to bone mass [118].…”

Section: Excessive Adipose Tissuementioning

confidence: 99%

The Role of Bone Marrow Microenvironment in Governing the Balance between Osteoblastogenesis and Adipogenesis

Liu

Zuo

et al. 2016

Aging and disease

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ABSTRACT:In the adult bone marrow, osteoblasts and adipocytes share a common precursor called mesenchymal stem cells (MSCs). The plasticity between the two lineages has been confirmed over the past decades, and has important implications in the etiology of bone diseases such as osteoporosis, which involves an imbalance between osteoblasts and adipocytes. The commitment and differentiation of bone marrow (BM) MSCs is tightly controlled by the local environment that maintains a balance between osteoblast lineage and adipocyte. However, pathological conditions linked to osteoporosis can change the BM microenvironment and shift the MSC fate to favor adipocytes over osteoblasts, and consequently decrease bone mass with marrow fat accumulation. This review discusses the changes that occur in the BM microenvironment under pathological conditions, and how these changes affect MSC fate. We suggest that manipulating local environments could have therapeutic implications to avoid bone loss in diseases like osteoporosis.

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“…Studies in vitro and in vivo have yielded contradictory results regarding the effects of Adipoq on bone cell function. Adipoq has been shown to either stimulate or suppress osteogenesis in vitro (Lee et al, 2009;Shinoda et al, 2006;Williams et al, 2009) and the results from in vivo studies using Adipoq knockout or overexpressing mice are also conflicting (Ealey et al, 2008;Oshima et al, 2005;Shinoda et al, 2006;Williams et al, 2009). This indicates that Adipoq could additionally contribute to the bone phenotype by suppressing bone forming activity in osteoblasts in an autocrine fashion.…”

Section: (N56) (Gh) Glucose Tolerance (Gtt) and Insulin Tolerance (mentioning

confidence: 99%

Osteoblast-specific expression of Fra-2/AP-1 controls Adiponectin/Osteocalcin expression and affects metabolism

Bözec

Bakiri

Jiménez

et al. 2013

Journal of Cell Science

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SummaryRecent studies have established that the skeleton functions as an endocrine organ affecting metabolism through the osteoblast-derived hormone osteocalcin (Ocn). However, it is not fully understood how many transcription factors expressed in osteoblasts regulate the endocrine function. Here, we show that mice with osteoblast-specific deletion of Fra-2 (Fosl2) have low bone mass but increased body weight. In contrast, transgenic expression of Fra-2 in osteoblasts leads to increased bone mass and decreased body weight accompanied by reduced serum glucose and insulin levels, improved glucose tolerance and insulin sensitivity. In addition, mice lacking Fra-2 have reduced levels of circulating Ocn, but high adiponectin (Adipoq), whereas Fra-2 transgenic mice exhibit high Ocn and low Adipoq levels. Moreover, we found that Adipoq was expressed in osteoblasts and that this expression was transcriptionally repressed by Fra-2. These results demonstrate that Fra-2 expression in osteoblasts represents a novel paradigm for a transcription factor controlling the endocrine function of the skeleton.

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In Vitro and in Vivo Effects of Adiponectin on Bone

Cited by 191 publications

References 55 publications

AMP-activated protein kinase pathway and bone metabolism

AMP-activated protein kinase pathway and bone metabolism

The Role of Bone Marrow Microenvironment in Governing the Balance between Osteoblastogenesis and Adipogenesis

Osteoblast-specific expression of Fra-2/AP-1 controls Adiponectin/Osteocalcin expression and affects metabolism

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