Leptin changes differentiation fate and induces senescence in chondrogenic progenitor cells

Zhao, Xiang; Dong, Yuefu; Zhang, Jia; Li, D; Hu, Guangyu; Yao, Jun; Li, Y; Huang, Ping; Zhang, M; Huang, Zhengwei; Zhang, Y; Miao, Ying; Xu, Qiang; Li, H

doi:10.1038/cddis.2016.68

Cited by 53 publications

(47 citation statements)

References 35 publications

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“…Chondrogenic progenitor cells (CPCs) are cartilage seed cells crucial to maintain cartilage homeostasis and replace damaged tissue. Leptin reduces CPC migratory ability and their chondrogenic potential and induces CPC senescence and osteogenic transformation, thus changing the pattern of CPC differentiation (Zhao et al ., ). Leptin also regulates bone metabolism via induction of abnormal osteoblast function, which is associated with joint destruction in OA patients (Conde et al ., ).…”

Section: Leptin and Osteoarthritismentioning

confidence: 97%

Adipokines and inflammation: is it a question of weight?

Francisco

Pino

González-Gay

et al. 2018

British J Pharmacology

129

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Obesity has reached epidemic proportions in the Western society and is increasing in the developing world. It is considered as one of the major contributors to the global burden of disability and chronic diseases, including autoimmune, inflammatory and degenerative diseases. Research conducted on obesity and its complications over the last two decades has transformed the outdated concept of white adipose tissue (WAT) merely serving as an energy depot. WAT is now recognized as an active and inflammatory organ capable of producing a wide variety of factors known as adipokines. These molecules participate through endocrine, paracrine, autocrine or juxtacrine crosstalk mechanisms in a great variety of physiological or pathophysiological processes, regulating food intake, insulin sensitivity, immunity and inflammation. Although initially restricted to metabolic activities (regulation of glucose and lipid metabolism), adipokines currently represent a new family of proteins that can be considered key players in the complex network of soluble mediators involved in the pathophysiology of immune/inflammatory diseases. However, the complexity of the adipokine network in the pathogenesis and progression of inflammatory diseases has posed, since the beginning, the important question of whether it may be possible to target the mechanism(s) by which adipokines contribute to disease selectively without suppressing their physiological functions. Here, we explore in depth the most recent findings concerning the involvement of adipokines in inflammation and immune responses, in particular in rheumatic, inflammatory and degenerative diseases. We also highlight several possible strategies for therapeutic development and propose that adipokines and their signalling pathways may represent innovative therapeutic strategies for inflammatory disorders.

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Section: Leptin and Osteoarthritismentioning

confidence: 97%

Adipokines and inflammation: is it a question of weight?

Francisco

Pino

González-Gay

et al. 2018

British J Pharmacology

129

View full text Add to dashboard Cite

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“…Chondrogenic progenitor cells as cartilage seed cells are crucial to maintain cartilage homeostasis and replace damaged tissue ( Seol et al, 2012 ). Leptin (50 ng/ml) can reduce CPCs migratory ability and their chondrogenic potential, and augment CPCs osteogenic transformation, hence changing CPC differentiation fate ( Zhao et al, 2016 ). CPC cell cycle arrest and senescence are also induced by leptin ( Zhao et al, 2016 ).…”

Section: Leptin and Immune-metabolic Pathologiesmentioning

confidence: 99%

“…Leptin (50 ng/ml) can reduce CPCs migratory ability and their chondrogenic potential, and augment CPCs osteogenic transformation, hence changing CPC differentiation fate ( Zhao et al, 2016 ). CPC cell cycle arrest and senescence are also induced by leptin ( Zhao et al, 2016 ). Furthermore, leptin influenced the regulation of bone metabolism through induction of abnormal osteoblast function, which is associated to joint destruction in OA patients ( Findlay and Atkins, 2014 ; Conde et al, 2015 ).…”

Section: Leptin and Immune-metabolic Pathologiesmentioning

confidence: 99%

Obesity, Fat Mass and Immune System: Role for Leptin

et al. 2018

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Obesity is an epidemic disease characterized by chronic low-grade inflammation associated with a dysfunctional fat mass. Adipose tissue is now considered an extremely active endocrine organ that secretes cytokine-like hormones, called adipokines, either pro- or anti-inflammatory factors bridging metabolism to the immune system. Leptin is historically one of most relevant adipokines, with important physiological roles in the central control of energy metabolism and in the regulation of metabolism-immune system interplay, being a cornerstone of the emerging field of immunometabolism. Indeed, leptin receptor is expressed throughout the immune system and leptin has been shown to regulate both innate and adaptive immune responses. This review discusses the latest data regarding the role of leptin as a mediator of immune system and metabolism, with particular emphasis on its effects on obesity-associated metabolic disorders and autoimmune and/or inflammatory rheumatic diseases.

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“…The function and health of the vascular network are regulated by the vascular endothelium releasing molecules that act in an autocrine and paracrine manner . In addition to the redox balance , nitric oxide (NO) is the most important mediator of normal endothelial function, through its powerful vasodilator action. NO is synthesized by the endothelial NO synthase (eNOS or NOS III) via the action of different neurohumoral mediators such as acetylcholine and circulating hormones .…”

Section: Endothelial Dysfunction and Ageing: The Role Of Nitric Oxidementioning

confidence: 99%

Arterial ageing: from endothelial dysfunction to vascular calcification

et al. 2017

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Complex structural and functional changes occur in the arterial system with advancing age. The aged artery is characterized by changes in microRNA expression patterns, autophagy, smooth muscle cell migration and proliferation, and arterial calcification with progressively increased mechanical vessel rigidity and stiffness. With age the vascular smooth muscle cells modify their phenotype from contractile to ‘synthetic’ determining the development of intimal thickening as early as the second decade of life as an adaptive response to forces acting on the arterial wall. The increased permeability observed in intimal thickening could represent the substrate on which low‐level atherosclerotic stimuli can promote the development of advanced atherosclerotic lesions. In elderly patients the atherosclerotic plaques tend to be larger with increased vascular stenosis. In these plaques there is a progressive accumulation of both lipids and collagen and a decrease of inflammation. Similarly the plaques from elderly patients show more calcification as compared with those from younger patients. The coronary artery calcium score is a well‐established marker of adverse cardiovascular outcomes. The presence of diffuse calcification in a severely stenotic segment probably induces changes in mechanical properties and shear stress of the arterial wall favouring the rupture of a vulnerable lesion in a less stenotic adjacent segment. Oxidative stress and inflammation appear to be the two primary pathological mechanisms of ageing‐related endothelial dysfunction even in the absence of clinical disease. Arterial ageing is no longer considered an inexorable process. Only a better understanding of the link between ageing and vascular dysfunction can lead to significant advances in both preventative and therapeutic treatments with the aim that in the future vascular ageing may be halted or even reversed.

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Leptin changes differentiation fate and induces senescence in chondrogenic progenitor cells

Cited by 53 publications

References 35 publications

Adipokines and inflammation: is it a question of weight?

Adipokines and inflammation: is it a question of weight?

Obesity, Fat Mass and Immune System: Role for Leptin

Arterial ageing: from endothelial dysfunction to vascular calcification

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