TY - JOUR
T1 - Elevated CCL2 causes Leydig cell malfunction in metabolic syndrome
AU - Jiang, Qingkui
AU - Maresch, Constanze C.
AU - Petry, Sebastian Friedrich
AU - Paradowska-Dogan, Agnieszka
AU - Bhushan, Sudhanshu
AU - Chang, Yongsheng
AU - Wrenzycki, Christine
AU - Schuppe, Hans Christian
AU - Houska, Petr
AU - Hartmann, Michaela F.
AU - Wudy, Stefan A.
AU - Shi, Lanbo
AU - Linn, Thomas
N1 - Funding Information:
The authors thank Gundula Hertl, Birte Hussmann, Doris Erb, Tania Bloch, Kerstin Wilhelm, Franziska Kotarski, Barbara Fröhlich, Ming Wang, Lei Zhang, and Sanjay Tyagi for expert advice and technical assistance. This work was supported by grants from Deutsche Forschungsgemeinschaft to TL (DFG LI 353/17-1) and Bundesministerium für Bildung und Forschung to TL (01DL13015). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. We acknowledge Life Science Editors and Ryan Dikdan for editing assistance.
Publisher Copyright:
Copyright: © 2020, Jiang et al. This is an open access article published under the terms of the Creative Commons Attribution 4.0 International License.
PY - 2020/11/5
Y1 - 2020/11/5
N2 - Metabolic syndrome (MetS), which is associated with chronic inflammation, predisposes males to hypogonadism and subfertility. The underlying mechanism of these pathologies remains poorly understood. Homozygous leptin-resistant obese db/db mice are characterized by small testes, low testicular testosterone, and a reduced number of Leydig cells. Here we report that IL-1β, CCL2 (also known as MCP-1), and corticosterone concentrations were increased in the testes of db/db mice relative to those in WT controls. Cultured murine and human Leydig cells responded to cytokine stress with increased CCL2 release and apoptotic signals. Chemical inhibition of CCL2 rescued Leydig cell function in vitro and in db/db mice. Consistently, we found that Ccl2-deficient mice fed with a high-energy diet were protected from testicular dysfunction compared with similarly fed WT mice. Finally, a cohort of infertile men with a history of MetS showed that reduction of CCL2 plasma levels could be achieved by weight loss and was clearly associated with recovery from hypogonadism. Taken together, we conclude that CCL2-mediated chronic inflammation is, to a large extent, responsible for the subfertility in MetS by causing damage to Leydig cells.
AB - Metabolic syndrome (MetS), which is associated with chronic inflammation, predisposes males to hypogonadism and subfertility. The underlying mechanism of these pathologies remains poorly understood. Homozygous leptin-resistant obese db/db mice are characterized by small testes, low testicular testosterone, and a reduced number of Leydig cells. Here we report that IL-1β, CCL2 (also known as MCP-1), and corticosterone concentrations were increased in the testes of db/db mice relative to those in WT controls. Cultured murine and human Leydig cells responded to cytokine stress with increased CCL2 release and apoptotic signals. Chemical inhibition of CCL2 rescued Leydig cell function in vitro and in db/db mice. Consistently, we found that Ccl2-deficient mice fed with a high-energy diet were protected from testicular dysfunction compared with similarly fed WT mice. Finally, a cohort of infertile men with a history of MetS showed that reduction of CCL2 plasma levels could be achieved by weight loss and was clearly associated with recovery from hypogonadism. Taken together, we conclude that CCL2-mediated chronic inflammation is, to a large extent, responsible for the subfertility in MetS by causing damage to Leydig cells.
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U2 - 10.1172/jci.insight.134882
DO - 10.1172/jci.insight.134882
M3 - Article
C2 - 33148888
AN - SCOPUS:85095675039
SN - 2379-3708
VL - 5
JO - JCI insight
JF - JCI insight
IS - 21
M1 - e134882
ER -