Your search keyword '"Kang, Sona"' showing total 2 results

1. IRF3 promotes adipose inflammation and insulin resistance and represses browning

Author

Kumari, Manju, Wang, Xun, Lantier, Louise, Lyubetskaya, Anna, Eguchi, Jun, Kang, Sona, Tenen, Danielle, Roh, Hyun Cheol, Kong, Xingxing, Kazak, Lawrence, Ahmad, Rasheed, and Rosen, Evan D.

Subjects

Adipose tissues -- Growth -- Genetic aspects, Cellular signal transduction -- Genetic aspects -- Health aspects, Transcription factors -- Properties, Company growth, Health care industry

Abstract

The chronic inflammatory state that accompanies obesity is a major contributor to insulin resistance and other dysfunctional adaptations in adipose tissue. Cellular and secreted factors promote the inflammatory milieu of obesity, but the transcriptional pathways that drive these processes are not well described. Although the canonical inflammatory transcription factor NF-κB is considered to be the major driver of adipocyte inflammation, members of the interferon regulatory factor (IRF) family may also play a role in this process. Here, we determined that IRF3 expression is upregulated in the adipocytes of obese mice and humans. Signaling through TLR3 and TLR4, which lie upstream of IRF3, induced insulin resistance in murine adipocytes, while IRF3 knockdown prevented insulin resistance. Furthermore, improved insulin sensitivity in IRF3-deficient mice was associated with reductions in intra-adipose and systemic inflammation in the high fat-fed state, enhanced browning of subcutaneous fat, and increased adipose expression of GLUT4. Taken together, the data indicate that IRF3 is a major transcriptional regulator of adipose inflammation and is involved in maintaining systemic glucose and energy homeostasis., Introduction One of the major concepts emerging from the last 2 decades of metabolism research is the notion of 'metainflammation,' the state of chronic low-grade inflammation that develops during periods [...]

Published

2016

2. IRF3 promotes adipose inflammation and insulin resistance and represses browning.

Author

Manju Kumari, Xun Wang, Lantier, Louise, Lyubetskaya, Anna, Eguchi, Jun, Sona Kang, Tenen, Danielle, Hyun Cheol Roh, Xingxing Kong, Kazak, Lawrence, Ahmad, Rasheed, Rosen, Evan D., Kumari, Manju, Wang, Xun, Kang, Sona, Roh, Hyun Cheol, and Kong, Xingxing

Subjects

*INSULIN resistance, *ADIPOSE tissues, *OBESITY, *TRANSCRIPTION factors, *FAT cells, *PROTEIN metabolism, *ANIMALS, *BLOOD sugar, *HUMAN body composition, *CARRIER proteins, *CELL receptors, *CELLS, *DIET, *EPITHELIAL cells, *GENES, *HOMEOSTASIS, *INFLAMMATION, *MICE, *DNA-binding proteins, *GLUCOSE clamp technique

Abstract

The chronic inflammatory state that accompanies obesity is a major contributor to insulin resistance and other dysfunctional adaptations in adipose tissue. Cellular and secreted factors promote the inflammatory milieu of obesity, but the transcriptional pathways that drive these processes are not well described. Although the canonical inflammatory transcription factor NF-κB is considered to be the major driver of adipocyte inflammation, members of the interferon regulatory factor (IRF) family may also play a role in this process. Here, we determined that IRF3 expression is upregulated in the adipocytes of obese mice and humans. Signaling through TLR3 and TLR4, which lie upstream of IRF3, induced insulin resistance in murine adipocytes, while IRF3 knockdown prevented insulin resistance. Furthermore, improved insulin sensitivity in IRF3-deficient mice was associated with reductions in intra-adipose and systemic inflammation in the high fat-fed state, enhanced browning of subcutaneous fat, and increased adipose expression of GLUT4. Taken together, the data indicate that IRF3 is a major transcriptional regulator of adipose inflammation and is involved in maintaining systemic glucose and energy homeostasis. [ABSTRACT FROM AUTHOR]

Published

2016