Anti-cell death engineering of CHO cells: Co-overexpression of Bcl-2 for apoptosis inhibition, Beclin-1 for autophagy induction

Anti-cell death engineering of CHO cells: Co-overexpression of Bcl-2 for apoptosis inhibition, Beclin-1 for autophagy induction

Genetic engineering approaches to inhibit cell death in Chinese hamster ovary (CHO) cell cultures have been limited primarily to anti‐apoptosis engineering. Recently, autophagy has received attention as a new anti‐cell death engineering target in addition to apoptosis. In order to achieve a more eff...

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Veröffentlicht in:Biotechnology and bioengineering 2013-08, Vol.110 (8), p.2195-2207
Hauptverfasser: Lee, Jae Seong, Ha, Tae Kwang, Park, Jin Hyoung, Lee, Gyun Min
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Sprache:eng
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Animals
Apoptosis
Apoptosis Regulatory Proteins - biosynthesis
Apoptosis Regulatory Proteins - genetics
Autophagy
Bcl-2
Beclin-1
Biotechnology - methods
Cell Culture Techniques - methods
Cell Survival
CHO Cells
CHO-DG44
Cricetulus
Genetic engineering
Proteins
Proto-Oncogene Proteins c-bcl-2 - biosynthesis
Proto-Oncogene Proteins c-bcl-2 - genetics
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creator Lee, Jae Seong
Ha, Tae Kwang
Park, Jin Hyoung
Lee, Gyun Min
description Genetic engineering approaches to inhibit cell death in Chinese hamster ovary (CHO) cell cultures have been limited primarily to anti‐apoptosis engineering. Recently, autophagy has received attention as a new anti‐cell death engineering target in addition to apoptosis. In order to achieve a more efficient protection of cells from the stressful culture conditions, the simultaneous targeting of anti‐apoptosis and pro‐autophagy in CHO cells (DG44) was attempted by co‐overexpressing an anti‐apoptotic protein, Bcl‐2, and a key regulator of autophagy pathway, Beclin‐1, respectively. Co‐overexpression of Bcl‐2 and Beclin‐1 exhibited a longer culture period as well as higher viability during serum‐free suspension culture, compared with the control (without co‐overexpression of Bcl‐2 and Beclin‐1) and Bcl‐2 overexpression only. In addition to the efficient inhibition of apoptosis by Bcl‐2 overexpression, Beclin‐1 overexpression successfully induced the increase in the autophagic marker protein, LC3‐II, and autophagosome formation with the decrease in mTOR activity. Co‐immunoprecipitation and qRT‐PCR experiments revealed that the enforced expression of Beclin‐1 increased Ulk1 expression and level of free‐Beclin‐1 that did not bind to the Bcl‐2 despite the Bcl‐2 overexpression. Under other stressful culture conditions such as treatment with sodium butyrate and hyperosmolality, co‐overexpression of Bcl‐2 and Beclin‐1 also protected the cells from cell death more efficiently than Bcl‐2 overexpression only, implying the potential of autophagy induction. Taken together, the data obtained here provide the evidence that pro‐autophagy engineering together with anti‐apoptosis engineering yields a synergistic effect and successfully enhances the anti‐cell death engineering of CHO cells. Biotechnol. Bioeng. 2013; 110: 2195–2207. © 2013 Wiley Periodicals, Inc. In order to achieve a more efficient protection of cells from stressful culture conditions, the simultaneous targeting of anti‐apoptosis and pro‐autophagy in CHO cells was attempted by co‐overexpressing an anti‐apoptotic protein, Bcl‐2, and a key regulator of autophagy pathway, Beclin‐1, respectively. This approach achieved a more efficient inhibition of cell death and a longer culture period, providing the evidence that pro‐autophagy engineering together with anti‐apoptosis engineering yields a synergistic effect and successfully enhances the anti‐cell death engineering of CHO cells.
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Recently, autophagy has received attention as a new anti‐cell death engineering target in addition to apoptosis. In order to achieve a more efficient protection of cells from the stressful culture conditions, the simultaneous targeting of anti‐apoptosis and pro‐autophagy in CHO cells (DG44) was attempted by co‐overexpressing an anti‐apoptotic protein, Bcl‐2, and a key regulator of autophagy pathway, Beclin‐1, respectively. Co‐overexpression of Bcl‐2 and Beclin‐1 exhibited a longer culture period as well as higher viability during serum‐free suspension culture, compared with the control (without co‐overexpression of Bcl‐2 and Beclin‐1) and Bcl‐2 overexpression only. In addition to the efficient inhibition of apoptosis by Bcl‐2 overexpression, Beclin‐1 overexpression successfully induced the increase in the autophagic marker protein, LC3‐II, and autophagosome formation with the decrease in mTOR activity. Co‐immunoprecipitation and qRT‐PCR experiments revealed that the enforced expression of Beclin‐1 increased Ulk1 expression and level of free‐Beclin‐1 that did not bind to the Bcl‐2 despite the Bcl‐2 overexpression. Under other stressful culture conditions such as treatment with sodium butyrate and hyperosmolality, co‐overexpression of Bcl‐2 and Beclin‐1 also protected the cells from cell death more efficiently than Bcl‐2 overexpression only, implying the potential of autophagy induction. Taken together, the data obtained here provide the evidence that pro‐autophagy engineering together with anti‐apoptosis engineering yields a synergistic effect and successfully enhances the anti‐cell death engineering of CHO cells. Biotechnol. Bioeng. 2013; 110: 2195–2207. © 2013 Wiley Periodicals, Inc. 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Bioeng</addtitle><description>Genetic engineering approaches to inhibit cell death in Chinese hamster ovary (CHO) cell cultures have been limited primarily to anti‐apoptosis engineering. Recently, autophagy has received attention as a new anti‐cell death engineering target in addition to apoptosis. In order to achieve a more efficient protection of cells from the stressful culture conditions, the simultaneous targeting of anti‐apoptosis and pro‐autophagy in CHO cells (DG44) was attempted by co‐overexpressing an anti‐apoptotic protein, Bcl‐2, and a key regulator of autophagy pathway, Beclin‐1, respectively. Co‐overexpression of Bcl‐2 and Beclin‐1 exhibited a longer culture period as well as higher viability during serum‐free suspension culture, compared with the control (without co‐overexpression of Bcl‐2 and Beclin‐1) and Bcl‐2 overexpression only. 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Bioeng</addtitle><date>2013-08</date><risdate>2013</risdate><volume>110</volume><issue>8</issue><spage>2195</spage><epage>2207</epage><pages>2195-2207</pages><issn>0006-3592</issn><eissn>1097-0290</eissn><coden>BIBIAU</coden><abstract>Genetic engineering approaches to inhibit cell death in Chinese hamster ovary (CHO) cell cultures have been limited primarily to anti‐apoptosis engineering. Recently, autophagy has received attention as a new anti‐cell death engineering target in addition to apoptosis. In order to achieve a more efficient protection of cells from the stressful culture conditions, the simultaneous targeting of anti‐apoptosis and pro‐autophagy in CHO cells (DG44) was attempted by co‐overexpressing an anti‐apoptotic protein, Bcl‐2, and a key regulator of autophagy pathway, Beclin‐1, respectively. 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Taken together, the data obtained here provide the evidence that pro‐autophagy engineering together with anti‐apoptosis engineering yields a synergistic effect and successfully enhances the anti‐cell death engineering of CHO cells. Biotechnol. Bioeng. 2013; 110: 2195–2207. © 2013 Wiley Periodicals, Inc. In order to achieve a more efficient protection of cells from stressful culture conditions, the simultaneous targeting of anti‐apoptosis and pro‐autophagy in CHO cells was attempted by co‐overexpressing an anti‐apoptotic protein, Bcl‐2, and a key regulator of autophagy pathway, Beclin‐1, respectively. 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subjects Animals
Apoptosis
Apoptosis Regulatory Proteins - biosynthesis
Apoptosis Regulatory Proteins - genetics
Autophagy
Bcl-2
Beclin-1
Biotechnology - methods
Cell Culture Techniques - methods
Cell Survival
CHO Cells
CHO-DG44
Cricetulus
Genetic engineering
Proteins
Proto-Oncogene Proteins c-bcl-2 - biosynthesis
Proto-Oncogene Proteins c-bcl-2 - genetics
title Anti-cell death engineering of CHO cells: Co-overexpression of Bcl-2 for apoptosis inhibition, Beclin-1 for autophagy induction
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