Ablation of Bax and Bak protects skeletal muscle against pressure-induced injury

Bjorn T. Tam; Angus P. Yu; Eric W. Tam; Douglas A. Monks; Xu P. Wang; Xiao M. Pei; Su P. Koh; Thomas K. Sin; Helen K.W. Law; Felix N. Ugwu; Rashmi Supriya; Benjamin Y. Yung; Shea P. Yip; S. C. Wong; Lawrence W. Chan; Christopher W. Lai; Pin Ouyang; Parco M. Siu

doi:10.1038/s41598-018-21853-5

Ablation of Bax and Bak protects skeletal muscle against pressure-induced injury

Bjorn T. Tam, Angus P. Yu, Eric W. Tam, Douglas A. Monks, Xu P. Wang, Xiao M. Pei, Su P. Koh, Thomas K. Sin, Helen K.W. Law, Felix N. Ugwu, Rashmi Supriya, Benjamin Y. Yung, Shea P. Yip, S. C. Wong, Lawrence W. Chan, Christopher W. Lai, Pin Ouyang, Parco M. Siu

Lymphoma-Myeloma

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8 Scopus citations

Abstract

Pressure-induced injury (PI), such as a pressure ulcer, in patients with limited mobility is a healthcare issue worldwide. PI is an injury to skin and its underlying tissue such as skeletal muscle. Muscle compression, composed of mechanical deformation of muscle and external load, leads to localized ischemia and subsequent unloading reperfusion and, hence, a pressure ulcer in bed-bound patients. Although the gross factors involved in PI have been identified, little is known about the exact disease mechanism or its links to apoptosis, autophagy and inflammation. Here, we report that PI is mediated by intrinsic apoptosis and exacerbated by autophagy. Conditional ablation of Bax and Bak activates the Akt-mTOR pathway and Bnip3-mediated mitophagy and preserves mitochondrial contents in compressed muscle. Moreover, we find that the presence/absence of Bax and Bak alters the roles and functions of autophagy in PI. Our results suggest that manipulating apoptosis and autophagy are potential therapeutic targets for treatment and prevention of PI.

Original language	English (US)
Article number	3689
Journal	Scientific reports
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s41598-018-21853-5
State	Published - Dec 1 2018

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Tam, B. T., Yu, A. P., Tam, E. W., Monks, D. A., Wang, X. P., Pei, X. M., Koh, S. P., Sin, T. K., Law, H. K. W., Ugwu, F. N., Supriya, R., Yung, B. Y., Yip, S. P., Wong, S. C., Chan, L. W., Lai, C. W., Ouyang, P., & Siu, P. M. (2018). Ablation of Bax and Bak protects skeletal muscle against pressure-induced injury. Scientific reports, 8(1), Article 3689. https://doi.org/10.1038/s41598-018-21853-5

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title = "Ablation of Bax and Bak protects skeletal muscle against pressure-induced injury",

abstract = "Pressure-induced injury (PI), such as a pressure ulcer, in patients with limited mobility is a healthcare issue worldwide. PI is an injury to skin and its underlying tissue such as skeletal muscle. Muscle compression, composed of mechanical deformation of muscle and external load, leads to localized ischemia and subsequent unloading reperfusion and, hence, a pressure ulcer in bed-bound patients. Although the gross factors involved in PI have been identified, little is known about the exact disease mechanism or its links to apoptosis, autophagy and inflammation. Here, we report that PI is mediated by intrinsic apoptosis and exacerbated by autophagy. Conditional ablation of Bax and Bak activates the Akt-mTOR pathway and Bnip3-mediated mitophagy and preserves mitochondrial contents in compressed muscle. Moreover, we find that the presence/absence of Bax and Bak alters the roles and functions of autophagy in PI. Our results suggest that manipulating apoptosis and autophagy are potential therapeutic targets for treatment and prevention of PI.",

author = "Tam, {Bjorn T.} and Yu, {Angus P.} and Tam, {Eric W.} and Monks, {Douglas A.} and Wang, {Xu P.} and Pei, {Xiao M.} and Koh, {Su P.} and Sin, {Thomas K.} and Law, {Helen K.W.} and Ugwu, {Felix N.} and Rashmi Supriya and Yung, {Benjamin Y.} and Yip, {Shea P.} and Wong, {S. C.} and Chan, {Lawrence W.} and Lai, {Christopher W.} and Pin Ouyang and Siu, {Parco M.}",

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doi = "10.1038/s41598-018-21853-5",

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AU - Tam, Bjorn T.

AU - Yu, Angus P.

AU - Tam, Eric W.

AU - Monks, Douglas A.

AU - Wang, Xu P.

AU - Pei, Xiao M.

AU - Koh, Su P.

AU - Sin, Thomas K.

AU - Law, Helen K.W.

AU - Ugwu, Felix N.

AU - Supriya, Rashmi

AU - Yung, Benjamin Y.

AU - Yip, Shea P.

AU - Wong, S. C.

AU - Chan, Lawrence W.

AU - Lai, Christopher W.

AU - Ouyang, Pin

AU - Siu, Parco M.

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Pressure-induced injury (PI), such as a pressure ulcer, in patients with limited mobility is a healthcare issue worldwide. PI is an injury to skin and its underlying tissue such as skeletal muscle. Muscle compression, composed of mechanical deformation of muscle and external load, leads to localized ischemia and subsequent unloading reperfusion and, hence, a pressure ulcer in bed-bound patients. Although the gross factors involved in PI have been identified, little is known about the exact disease mechanism or its links to apoptosis, autophagy and inflammation. Here, we report that PI is mediated by intrinsic apoptosis and exacerbated by autophagy. Conditional ablation of Bax and Bak activates the Akt-mTOR pathway and Bnip3-mediated mitophagy and preserves mitochondrial contents in compressed muscle. Moreover, we find that the presence/absence of Bax and Bak alters the roles and functions of autophagy in PI. Our results suggest that manipulating apoptosis and autophagy are potential therapeutic targets for treatment and prevention of PI.

AB - Pressure-induced injury (PI), such as a pressure ulcer, in patients with limited mobility is a healthcare issue worldwide. PI is an injury to skin and its underlying tissue such as skeletal muscle. Muscle compression, composed of mechanical deformation of muscle and external load, leads to localized ischemia and subsequent unloading reperfusion and, hence, a pressure ulcer in bed-bound patients. Although the gross factors involved in PI have been identified, little is known about the exact disease mechanism or its links to apoptosis, autophagy and inflammation. Here, we report that PI is mediated by intrinsic apoptosis and exacerbated by autophagy. Conditional ablation of Bax and Bak activates the Akt-mTOR pathway and Bnip3-mediated mitophagy and preserves mitochondrial contents in compressed muscle. Moreover, we find that the presence/absence of Bax and Bak alters the roles and functions of autophagy in PI. Our results suggest that manipulating apoptosis and autophagy are potential therapeutic targets for treatment and prevention of PI.

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Ablation of Bax and Bak protects skeletal muscle against pressure-induced injury

Abstract

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