A direct tissue-grafting approach to increasing endogenous brown fat

Nicole R. Blumenfeld; Hwan June Kang; Anna Fenzl; Ziwei Song; Janice J. Chung; Ranjodh Singh; Roshawn Johnson; Ayse Karakecili; Jun B. Feranil; Ninna S. Rossen; Vivian Zhang; Sahir Jaggi; Bret McCarty; Steven Bessler; Gary J. Schwartz; Robert Grant; Judith Korner; Florian W. Kiefer; Brian M. Gillette; Samuel K. Sia

doi:10.1038/s41598-018-25866-y

A direct tissue-grafting approach to increasing endogenous brown fat

Nicole R. Blumenfeld, Hwan June Kang, Anna Fenzl, Ziwei Song, Janice J. Chung, Ranjodh Singh, Roshawn Johnson, Ayse Karakecili, Jun B. Feranil, Ninna S. Rossen, Vivian Zhang, Sahir Jaggi, Bret McCarty, Steven Bessler, Gary J. Schwartz, Robert Grant, Judith Korner, Florian W. Kiefer, Brian M. Gillette, Samuel K. Sia

Medicine

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

There is widespread evidence that increasing functional mass of brown adipose tissue (BAT) via browning of white adipose tissue (WAT) could potentially counter obesity and diabetes. However, most current approaches focus on administration of pharmacological compounds which expose patients to highly undesirable side effects. Here, we describe a simple and direct tissue-grafting approach to increase BAT mass through ex vivo browning of subcutaneous WAT, followed by re-implantation into the host; this cell-therapy approach could potentially act synergistically with existing pharmacological approaches. With this process, entitled "exBAT", we identified conditions, in both mouse and human tissue, that convert whole fragments of WAT to BAT via a single step and without unwanted off-target pharmacological effects. We show that ex vivo, exBAT exhibited UCP1 immunostaining, lipid droplet formation, and mitochondrial metabolic activity consistent with native BAT. In mice, exBAT exhibited a highly durable phenotype for at least 8 weeks. Overall, these results enable a simple and scalable tissue-grafting strategy, rather than pharmacological approaches, for increasing endogenous BAT and studying its effect on host weight and metabolism.

Original language	English (US)
Article number	7957
Journal	Scientific reports
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s41598-018-25866-y
State	Published - Dec 1 2018

ASJC Scopus subject areas

General

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/s41598-018-25866-y

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Blumenfeld, N. R., Kang, H. J., Fenzl, A., Song, Z., Chung, J. J., Singh, R., Johnson, R., Karakecili, A., Feranil, J. B., Rossen, N. S., Zhang, V., Jaggi, S., McCarty, B., Bessler, S., Schwartz, G. J., Grant, R., Korner, J., Kiefer, F. W., Gillette, B. M., & Sia, S. K. (2018). A direct tissue-grafting approach to increasing endogenous brown fat. Scientific reports, 8(1), [7957]. https://doi.org/10.1038/s41598-018-25866-y

Blumenfeld, NR, Kang, HJ, Fenzl, A, Song, Z, Chung, JJ, Singh, R, Johnson, R, Karakecili, A, Feranil, JB, Rossen, NS, Zhang, V, Jaggi, S, McCarty, B, Bessler, S, Schwartz, GJ, Grant, R, Korner, J, Kiefer, FW, Gillette, BM & Sia, SK 2018, 'A direct tissue-grafting approach to increasing endogenous brown fat', Scientific reports, vol. 8, no. 1, 7957. https://doi.org/10.1038/s41598-018-25866-y

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title = "A direct tissue-grafting approach to increasing endogenous brown fat",

abstract = "There is widespread evidence that increasing functional mass of brown adipose tissue (BAT) via browning of white adipose tissue (WAT) could potentially counter obesity and diabetes. However, most current approaches focus on administration of pharmacological compounds which expose patients to highly undesirable side effects. Here, we describe a simple and direct tissue-grafting approach to increase BAT mass through ex vivo browning of subcutaneous WAT, followed by re-implantation into the host; this cell-therapy approach could potentially act synergistically with existing pharmacological approaches. With this process, entitled {"}exBAT{"}, we identified conditions, in both mouse and human tissue, that convert whole fragments of WAT to BAT via a single step and without unwanted off-target pharmacological effects. We show that ex vivo, exBAT exhibited UCP1 immunostaining, lipid droplet formation, and mitochondrial metabolic activity consistent with native BAT. In mice, exBAT exhibited a highly durable phenotype for at least 8 weeks. Overall, these results enable a simple and scalable tissue-grafting strategy, rather than pharmacological approaches, for increasing endogenous BAT and studying its effect on host weight and metabolism.",

author = "Blumenfeld, {Nicole R.} and Kang, {Hwan June} and Anna Fenzl and Ziwei Song and Chung, {Janice J.} and Ranjodh Singh and Roshawn Johnson and Ayse Karakecili and Feranil, {Jun B.} and Rossen, {Ninna S.} and Vivian Zhang and Sahir Jaggi and Bret McCarty and Steven Bessler and Schwartz, {Gary J.} and Robert Grant and Judith Korner and Kiefer, {Florian W.} and Gillette, {Brian M.} and Sia, {Samuel K.}",

note = "Funding Information: This work was supported by a grant from the Coulter Foundation-Columbia University Translational Research Partnership, Columbia and an NIH R01 grant (R01HL095477). We would like to acknowledge funding from NIH P30DK026687, New York Obesity Nutrition Research Center Pilot and Feasibility Grant. N.R.B. was supported in part by the National Center for Advancing Translational Sciences, National Institutes of Health, through Grant Number TL1TR001875. The content is solely the responsibility of the authors and does not necessarily represent the official views of the NIH. This work was also supported by the Vienna Science and Technology Fund (WWTF) project LS12-059 and the Austrian Science Fund (FWF) project P27391-B26 (both to F.W.K.), and the Animal Phenotyping Core of the New York Obesity Nutrition Research Center NIH P30 DK026687-36 (G.J.S.). Publisher Copyright: {\textcopyright} 2018 The Author(s).",

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doi = "10.1038/s41598-018-25866-y",

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T1 - A direct tissue-grafting approach to increasing endogenous brown fat

AU - Blumenfeld, Nicole R.

AU - Kang, Hwan June

AU - Fenzl, Anna

AU - Song, Ziwei

AU - Chung, Janice J.

AU - Singh, Ranjodh

AU - Johnson, Roshawn

AU - Karakecili, Ayse

AU - Feranil, Jun B.

AU - Rossen, Ninna S.

AU - Zhang, Vivian

AU - Jaggi, Sahir

AU - McCarty, Bret

AU - Bessler, Steven

AU - Schwartz, Gary J.

AU - Grant, Robert

AU - Korner, Judith

AU - Kiefer, Florian W.

AU - Gillette, Brian M.

AU - Sia, Samuel K.

N1 - Funding Information: This work was supported by a grant from the Coulter Foundation-Columbia University Translational Research Partnership, Columbia and an NIH R01 grant (R01HL095477). We would like to acknowledge funding from NIH P30DK026687, New York Obesity Nutrition Research Center Pilot and Feasibility Grant. N.R.B. was supported in part by the National Center for Advancing Translational Sciences, National Institutes of Health, through Grant Number TL1TR001875. The content is solely the responsibility of the authors and does not necessarily represent the official views of the NIH. This work was also supported by the Vienna Science and Technology Fund (WWTF) project LS12-059 and the Austrian Science Fund (FWF) project P27391-B26 (both to F.W.K.), and the Animal Phenotyping Core of the New York Obesity Nutrition Research Center NIH P30 DK026687-36 (G.J.S.). Publisher Copyright: © 2018 The Author(s).

PY - 2018/12/1

Y1 - 2018/12/1

N2 - There is widespread evidence that increasing functional mass of brown adipose tissue (BAT) via browning of white adipose tissue (WAT) could potentially counter obesity and diabetes. However, most current approaches focus on administration of pharmacological compounds which expose patients to highly undesirable side effects. Here, we describe a simple and direct tissue-grafting approach to increase BAT mass through ex vivo browning of subcutaneous WAT, followed by re-implantation into the host; this cell-therapy approach could potentially act synergistically with existing pharmacological approaches. With this process, entitled "exBAT", we identified conditions, in both mouse and human tissue, that convert whole fragments of WAT to BAT via a single step and without unwanted off-target pharmacological effects. We show that ex vivo, exBAT exhibited UCP1 immunostaining, lipid droplet formation, and mitochondrial metabolic activity consistent with native BAT. In mice, exBAT exhibited a highly durable phenotype for at least 8 weeks. Overall, these results enable a simple and scalable tissue-grafting strategy, rather than pharmacological approaches, for increasing endogenous BAT and studying its effect on host weight and metabolism.

AB - There is widespread evidence that increasing functional mass of brown adipose tissue (BAT) via browning of white adipose tissue (WAT) could potentially counter obesity and diabetes. However, most current approaches focus on administration of pharmacological compounds which expose patients to highly undesirable side effects. Here, we describe a simple and direct tissue-grafting approach to increase BAT mass through ex vivo browning of subcutaneous WAT, followed by re-implantation into the host; this cell-therapy approach could potentially act synergistically with existing pharmacological approaches. With this process, entitled "exBAT", we identified conditions, in both mouse and human tissue, that convert whole fragments of WAT to BAT via a single step and without unwanted off-target pharmacological effects. We show that ex vivo, exBAT exhibited UCP1 immunostaining, lipid droplet formation, and mitochondrial metabolic activity consistent with native BAT. In mice, exBAT exhibited a highly durable phenotype for at least 8 weeks. Overall, these results enable a simple and scalable tissue-grafting strategy, rather than pharmacological approaches, for increasing endogenous BAT and studying its effect on host weight and metabolism.

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A direct tissue-grafting approach to increasing endogenous brown fat

Abstract

ASJC Scopus subject areas

UN SDGs

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