Sunitha Chandran scite author profile

Methamphetamine-associated cardiomyopathy is the leading cause of death linked with illicit drug use. Here we show that Sigmar1 is a therapeutic target for methamphetamine-associated cardiomyopathy and defined the molecular mechanisms using autopsy samples of human hearts, and a mouse model of “binge and crash” methamphetamine administration. Sigmar1 expression is significantly decreased in the hearts of human methamphetamine users and those of “binge and crash” methamphetamine-treated mice. The hearts of methamphetamine users also show signs of cardiomyopathy, including cellular injury, fibrosis, and enlargement of the heart. In addition, mice expose to “binge and crash” methamphetamine develop cardiac hypertrophy, fibrotic remodeling, and mitochondrial dysfunction leading to contractile dysfunction. Methamphetamine treatment inhibits Sigmar1, resulting in inactivation of the cAMP response element-binding protein (CREB), decreased expression of mitochondrial fission 1 protein (FIS1), and ultimately alteration of mitochondrial dynamics and function. Therefore, Sigmar1 is a viable therapeutic agent for protection against methamphetamine-associated cardiomyopathy.

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Lipin-1 contributes to IL-4 mediated macrophage polarization

Chandran

Schilke

Blackburn

et al. 2019

Preprint

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ABSTRACTMacrophage responses contribute to a diverse array of pathologies ranging from infectious disease to sterile inflammation. Polarization of macrophages determines their cellular function within biological processes. Lipin-1 is a phosphatidic acid phosphatase in which its enzymatic activity contributes to macrophage pro-inflammatory responses. Lipin-1 also possesses transcriptional co-regulator activity and whether this activity is required for macrophage polarization is unknown. Using mice that lack only lipin-1 enzymatic activity or both enzymatic and transcriptional coregulator activities from myeloid cells, we investigated the contribution of lipin-1 transcriptional co-regulator function towards macrophage wound healing polarization. Macrophages lacking both lipin-1 activities did elicit IL-4 mediated gene expression to levels seen in either wild-type or lipin-1 enzymatically deficient macrophages. Furthermore, we provide evidence that the lack of myeloid-associated lipin-1 transcriptional co-regulator activity leads to impaired full thickness excisional wound healing. Our study demonstrates that lipin-1 transcriptional co-regulatory activity contributes to macrophage polarization and the macrophage contribution to wound healing in vivo.

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Lipin-1 Contributes to IL-4 Mediated Macrophage Polarization

et al. 2020

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Macrophage responses contribute to a diverse array of pathologies ranging from infectious disease to sterile inflammation. Polarization of macrophages determines their cellular function within biological processes. Lipin-1 is a phosphatidic acid phosphatase in which its enzymatic activity contributes to macrophage pro-inflammatory responses. Lipin-1 also possesses transcriptional co-regulator activity and whether this activity is required for macrophage polarization is unknown. Using mice that lack only lipin-1 enzymatic activity or both enzymatic and transcriptional coregulator activities from myeloid cells, we investigated the contribution of lipin-1 transcriptional co-regulator function toward macrophage wound healing polarization. Macrophages lacking both lipin-1 activities did not elicit IL-4 mediated gene expression to levels seen in either wildtype or lipin-1 enzymatically deficient macrophages. Furthermore, mice lacking myeloidassociated lipin-1 have impaired full thickness excisional wound healing compared to wild-type mice or mice only lacking lipin-1 enzymatic activity from myeloid cell. Our study provides evidence that lipin-1 transcriptional co-regulatory activity contributes to macrophage polarization and influences wound healing in vivo.

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AAV8-mediated overexpression of mPCSK9 in liver differs between male and female mice

et al. 2018

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Myeloid-associated lipin-1 transcriptional co-regulatory activity is atheroprotective

et al. 2021

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