Zhu Xiang-Yang, Ma Shuangtao, Eirin Alfonso, Woollard John R, Hickson LaTonya J, Sun Dong, Lerman Amir, Lerman Lilach O
Division of Nephrology and Hypertension, Mayo Clinic, Rochester, Minnesota, USA.
Division of Cardiovascular Diseases, Mayo Clinic, Rochester, Minnesota, USA.
Stem Cells Transl Med. 2016 Jul;5(7):893-900. doi: 10.5966/sctm.2015-0240. Epub 2016 May 13.
Obesity is a major risk factor for a number of chronic diseases, including diabetes, cardiovascular diseases, and cancer. Expansion of the adipose mass requires adipocyte precursor cells that originate from multipotent adipose-derived stromal cells (ASCs), which in turn also participate in repair activities. ASC function might decline in a disease milieu, but it remains unclear whether ASC function varies during the development of obesity. We tested the hypothesis that microenvironmental inflammatory changes during development of metabolic disorders in obesity affect ASC function. Domestic pigs were fed with an atherogenic (n = 7) or normal (n = 7) diet for 16 weeks. Abdominal adipose tissue biopsies were collected after 8, 12, and 16 weeks of diet for ASC isolation and immunohistochemistry of in situ ASCs and tumor necrosis factor-α (TNF-α). Longitudinal changes in proliferation, differentiation, and anti-inflammatory functions of ASCs were assessed. At 16 weeks, upregulated TNF-α expression in adipose tissue from obese pigs was accompanied by increased numbers of adipocyte progenitors (CD24(+)/CD34(+)) in adipose tissue and enlarged adipocyte size. In vitro, ASCs from obese pigs showed enhanced adipogenic and osteogenic propensity, which was abolished by anti-TNF-α treatment, whereas lean ASCs treated with TNF-α showed enhanced adipogenesis. Furthermore, obese ASCs showed increased senescence compared with lean ASCs, whereas their immunomodulatory capacity was preserved. Adipose tissue inflammation promotes an increase in resident adipocyte progenitors and upregulated TNF-α enhances ASC adipogenesis. Thus, adipose tissue anti-inflammatory strategies might be a novel target to attenuate obesity and its complications.
Adipose-derived stromal cell (ASC) function might decline in a disease milieu, but it remains unclear whether ASC function varies during the development of obesity. This study tested the hypothesis that microenvironmental inflammatory changes during development of metabolic disorders in obesity affect ASC function. It was found that ASCs show increased propensity for differentiation into adipocytes, which is partly mediated by upregulated tumor necrosis factor-α (TNF-α), likely in their adipose tissue microenvironment. Furthermore, TNF-α magnified obese ASC senescence, although it did not regulate their anti-inflammatory properties. Thus, adipose tissue inflammation might be a novel therapeutic target to avert ASC maldifferentiation and senescence.
肥胖是包括糖尿病、心血管疾病和癌症在内的多种慢性疾病的主要风险因素。脂肪量的增加需要源自多能脂肪来源的基质细胞(ASC)的脂肪细胞前体细胞,而这些细胞反过来也参与修复活动。在疾病环境中,ASC的功能可能会下降,但肥胖发展过程中ASC功能是否会发生变化仍不清楚。我们检验了这样一个假设,即肥胖代谢紊乱发展过程中的微环境炎症变化会影响ASC功能。给家猪喂食致动脉粥样化饮食(n = 7)或正常饮食(n = 7)16周。在饮食8周、12周和16周后采集腹部脂肪组织活检样本,用于分离ASC以及对原位ASC和肿瘤坏死因子-α(TNF-α)进行免疫组织化学检测。评估ASC增殖、分化和抗炎功能的纵向变化。在16周时,肥胖猪脂肪组织中TNF-α表达上调,同时脂肪组织中脂肪细胞祖细胞(CD24(+)/CD34(+))数量增加且脂肪细胞大小增大。在体外,肥胖猪的ASC表现出增强的成脂和成骨倾向,抗TNF-α治疗可消除这种倾向,而用TNF-α处理的瘦ASC则表现出成脂增强。此外,与瘦ASC相比,肥胖ASC的衰老增加,但其免疫调节能力得以保留。脂肪组织炎症促进驻留脂肪细胞祖细胞增加,而上调的TNF-α增强ASC的成脂作用。因此,脂肪组织抗炎策略可能是减轻肥胖及其并发症的新靶点。
脂肪来源的基质细胞(ASC)功能在疾病环境中可能会下降,但肥胖发展过程中ASC功能是否会发生变化仍不清楚。本研究检验了这样一个假设,即肥胖代谢紊乱发展过程中的微环境炎症变化会影响ASC功能。研究发现,ASC向脂肪细胞分化的倾向增加,这部分是由肿瘤坏死因子-α(TNF-α)上调介导的,可能是在其脂肪组织微环境中。此外,TNF-α加剧了肥胖ASC的衰老,尽管它不调节其抗炎特性。因此,脂肪组织炎症可能是避免ASC分化异常和衰老的新治疗靶点。
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