Novel Therapeutic Strategies for Stroke: The Role of Autophagy

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Novel Therapeutic Strategies for Stroke: The Role of Autophagy Publisher Pubmed

Nabavi SF¹ ; Sureda A² ; Sanchessilva A^{3, 4} ; Pandima Devi K⁵ ; Ahmed T⁶ ; Shahid M⁶ ; Sobarzosanchez E^{7, 8} ; Dacrema M⁹ ; Daglia M⁹ ; Braidy N¹⁰ ; Vacca RA¹¹ ; Berindanneagoe I^{12, 13, 14} ; Gulei D¹² ; Barreca D¹⁵ Show All Authors

Nabavi SF¹
Sureda A²
Sanchessilva A^{3, 4}
Pandima Devi K⁵
Ahmed T⁶
Shahid M⁶
Sobarzosanchez E^{7, 8}
Dacrema M⁹
Daglia M⁹
Braidy N¹⁰
Vacca RA¹¹
Berindanneagoe I^{12, 13, 14}
Gulei D¹²
Barreca D¹⁵
Banach M^{16, 17, 18}
Nabavi SM¹
Dehpour AR^{19, 20}
Shirooie S²¹

Source: Critical Reviews in Clinical Laboratory Sciences Published:2019

Abstract

Autophagy is an important biological mechanism involved in the regulation of numerous fundamental cellular processes that are mainly associated with cellular growth and differentiation. Autophagic pathways are vital for maintaining cellular homeostasis by enhancing the turnover of nonfunctional proteins and organelles. Neuronal cells, like other eukaryotic cells, are dependent on autophagy for neuroprotection in response to stress, but can also induce cell death in cerebral ischemia. Recent studies have demonstrated that autophagy may induce neuroprotection following acute brain injury, including ischemic stroke. However in some special circumstances, activation of autophagy can induce cell death, playing a deleterious role in the etiology and progression of ischemic stroke. Currently, there are no therapeutic options against stroke that demonstrate efficient neuroprotective abilities. In the present work, we will review the significance of autophagy in the context of ischemic stroke by first outlining its role in ischemic neuronal death. We will also highlight the potential therapeutic applications of pharmacological modulators of autophagy, including some naturally occurring polyphenolic compounds that can target this catabolic process. Our findings provide renewed insight on the mechanism of action of autophagy in stroke together with potential neuroprotective compounds, which may partially exert their function through enhancing mitochondrial function and attenuating damaging autophagic processes. © 2019, © 2019 Informa UK Limited, trading as Taylor & Francis Group.

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Style	Citing Format
MLA	Nabavi SF, et al.. "Novel Therapeutic Strategies for Stroke: The Role of Autophagy." Critical Reviews in Clinical Laboratory Sciences, vol. 56, no. 3, 2019, pp. 182-199.
APA	Nabavi SF, Sureda A, Sanchessilva A, Pandima Devi K, Ahmed T, Shahid M, Sobarzosanchez E, Dacrema M, Daglia M, Braidy N, Vacca RA, Berindanneagoe I, Gulei D, Barreca D, Banach M, Nabavi SM, Dehpour AR, Shirooie S (2019). Novel Therapeutic Strategies for Stroke: The Role of Autophagy. Critical Reviews in Clinical Laboratory Sciences, 56(3), 182-199.
Chicago	Nabavi SF, Sureda A, Sanchessilva A, Pandima Devi K, Ahmed T, Shahid M, Sobarzosanchez E, et al.. "Novel Therapeutic Strategies for Stroke: The Role of Autophagy." Critical Reviews in Clinical Laboratory Sciences 56, no. 3 (2019): 182-199.
Harvard	Nabavi SF et al. (2019) 'Novel Therapeutic Strategies for Stroke: The Role of Autophagy', Critical Reviews in Clinical Laboratory Sciences, 56(3), pp. 182-199.
Vancouver	Nabavi SF, Sureda A, Sanchessilva A, Pandima Devi K, Ahmed T, Shahid M, et al.. Novel Therapeutic Strategies for Stroke: The Role of Autophagy. Critical Reviews in Clinical Laboratory Sciences. 2019;56(3):182-199.
BibTex	@article{ author = {Nabavi SF and Sureda A and Sanchessilva A and Pandima Devi K and Ahmed T and Shahid M and Sobarzosanchez E and Dacrema M and Daglia M and Braidy N and Vacca RA and Berindanneagoe I and Gulei D and Barreca D and Banach M and Nabavi SM and Dehpour AR and Shirooie S}, title = {Novel Therapeutic Strategies for Stroke: The Role of Autophagy}, journal = {Critical Reviews in Clinical Laboratory Sciences}, volume = {56}, number = {3}, pages = {182-199}, year = {2019} }
RIS	TY - JOUR AU - Nabavi SF AU - Sureda A AU - Sanchessilva A AU - Pandima Devi K AU - Ahmed T AU - Shahid M AU - Sobarzosanchez E AU - Dacrema M AU - Daglia M AU - Braidy N AU - Vacca RA AU - Berindanneagoe I AU - Gulei D AU - Barreca D AU - Banach M AU - Nabavi SM AU - Dehpour AR AU - Shirooie S TI - Novel Therapeutic Strategies for Stroke: The Role of Autophagy JO - Critical Reviews in Clinical Laboratory Sciences VL - 56 IS - 3 SP - 182 EP - 199 PY - 2019 ER -