Abstract

Abstract Disclosure: J. Zhu: None. R. Gupte: None. T.S. Nandu: None. W.L. Kraus: None. D. Huang: None. Adipose tissue macrophages play a significant role in maintaining adipose tissue homeostasis, as well as promoting chronic low-grade inflammation during the development of obesity and metabolic dysfunction. However, the crosstalk between macrophages and adipocytes, especially how macrophages affect adipogenesis in obese adipose tissue, are still poorly understood. We have investigated the function of PARP1 in the control of adipogenesis by using an adipocyte precursor-specific Parp1 knockout mouse model. Here, to investigate the role of macrophage PARP1 in regulating adipogenesis, we deleted Parp1 in the myeloid lineage by crossing Parp1loxp/loxp mice with LysMCre mice (Parp1 cKOLysMCre). Macrophages-specific knockout of Parp1 dramatically reduced LPS-induced pro-inflammatory gene expression in bone marrow-derived macrophages (BMDMs). To explore whether macrophage-specific Parp1 knockout affects adipocyte differentiation, we treated the primary preadipocytes from stromal vascular fraction (SVF) of white adipose tissue with the conditioned medium from LPS-stimulated control or Parp1 cKOLysMCre BMDMs throughout a 6-day period of differentiation. We observed that exposure of preadipocytes to the conditioned medium of Parp1 cKOLysMCre macrophages promoted adipogenesis by Oil Red O staining, as well as by monitoring the expression of key proadipogenic marker genes (e.g., Adipoq and Fabp4) by RT-qPCR. To further investigate the role of macrophage-specific deletion of Parp1 in metabolic outcomes, we fed the Parp1 cKOLysMCre mice with a high fat diet for 12 weeks. The knockout mice exhibited a significant increase in body weight compared to the control mice. Interestingly, we observed a reduction of the total number of macrophages resident in the adipose tissue from macrophage-specific Parp1 knockout mice. To explore the underlying mechanism, we performed single cell RNA-seq for adipose tissue macrophages using sorted SVF cells collected from HFD-fed mice. The results demonstrated dramatic reductions in macrophage M1 marker genes and pro-inflammatory transcription factors in Parp1 cKOLysMCre mice. Taken together, our study suggests that Parp1 knockout in macrophages selectively affects the recruitment and pro-inflammatory activation of macrophages, as well as adipocyte differentiation in adipose tissue. Importantly, despite the decreased adipose tissue inflammation, macrophage-specific Parp1 knockout enhanced adipogenesis, which leads to obesity in mice.This work was supported by a grant from the NIH/NIDDK (R01 DK069710) and funds from the Cecil H. and Ida Green Center for Reproductive Biology Sciences Endowment, to W.L.K., and a grant from NSFC (82270929) to D.H. Presentation: 6/1/2024

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