Bone morphogenetic proteins 4 and 7 increase human white and brown adipocyte thermogenic capacity
Kelly T. Long, Cheryl Cero, Sahara L. Ali, Nhuquynh Nguyen, Adrienne R. Guarnieri, Ju Hee Kim, Young Jae Bahn, Jurgen Heymann, Jonathan M. Dreyfuss, Sushil G. Rane, Yu-Hua Tseng, Aaron M. Cypess
Kelly T. Long, Cheryl Cero, Sahara L. Ali, Nhuquynh Nguyen, Adrienne R. Guarnieri, Ju Hee Kim, Young Jae Bahn, Jurgen Heymann, Jonathan M. Dreyfuss, Sushil G. Rane, Yu-Hua Tseng, Aaron M. Cypess
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Research Article Endocrinology Metabolism

Bone morphogenetic proteins 4 and 7 increase human white and brown adipocyte thermogenic capacity

Abstract

Adipocytes exist along a functional spectrum: white adipocytes are energy storing, and brown adipocytes have thermogenic capacity such that activation may counteract obesity-related disease. In between are UCP1-expressing beige adipocytes, which can transition between these two energetic states. We previously showed that bone morphogenetic protein 7 (BMP7), a member of the TGF-β superfamily, enables differentiation of brown preadipocytes to mature thermogenic cells. To see whether immortalized, clonal human white and brown preadipocytes (hWAs and hBAs, respectively) would become more thermogenic in response to BMP exposure, we treated them with BMP7 or BMP4 for the first 7 days of a 30-day differentiation protocol. In hBAs, absence of either BMP7 or BMP4 led to lower expression of brown-specific markers and oxygen consumption relative to 7 days with either BMP. hWAs treated for 7 days with either BMP did not increase expression of thermogenic protein UCP1 nor induce a brown-like transcription profile. However, BMP-treated hWAs produced adipocytes that had higher basal and drug-induced maximal oxygen consumption, which was UCP1-independent and due substantially to the futile creatine cycle. Our results demonstrate that energetically quiescent hWAs can be pushed into an energy-expending phenotype without transdifferentiation into beige adipocytes, providing a new approach to treat obesity-related metabolic disease.

Authors

Kelly T. Long, Cheryl Cero, Sahara L. Ali, Nhuquynh Nguyen, Adrienne R. Guarnieri, Ju Hee Kim, Young Jae Bahn, Jurgen Heymann, Jonathan M. Dreyfuss, Sushil G. Rane, Yu-Hua Tseng, Aaron M. Cypess

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Figure 2

BMP7 treatment decreased TCF21 white adipocyte markers and decreased beige and thermogenic markers in hWAs.

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BMP7 treatment decreased TCF21 white adipocyte markers and decreased bei...
qPCR analysis of hWAs at 30 days of differentiation without BMP7 treatment (yellow bars), 30 days of differentiation with 7 days of BMP7 treatment (dark yellow bars), and 30 days of differentiation with 30 days of BMP7 treatment (checkered dark yellow bars). The mRNA expression profiles of (A) thermogenic markers, (B) white adipocyte markers, (C) mitochondrial markers, (D) electron transport chain markers, (E) brown adipocyte markers, and (F) beige adipocyte markers (*P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001). (n = 8–24 replicates). d30-0T, d30-7T, and d30-30T refer to expression levels after 30 days of differentiation while being exposed to 0, 7, or 30 days of treatment with BMP7. (G) Immunoblot showing protein levels of OXPHOS proteins, PGC1α, and UCP1 in hWAs. Actin used as the loading control. (H) Oil Red O staining of differentiated clonal immortalized white adipocytes. (I) mRNA expression profiles of TGF-β–associated genes in hWAs treated with BMP7 or BMP4 for 7 or 30 days (indicated by gray box). Statistical analysis for qPCR data was conducted using 1-way ANOVA with Benjamini-Hochberg procedure to correct for multiple comparisons.