Reduced apoptosis in Chinese hamster ovary cells via optimized CRISPR interference

Kai Xiong; Kim Fabiano Marquart; Karen Julie la Cour Karottki; Shangzhong Li; Isaac Shamie; Jae Seong Lee; Signe Gerling; Nan Cher Yeo; Alejandro Chavez; Gyun Min Lee; Nathan E. Lewis; Helene Faustrup Kildegaard

doi:10.1002/bit.26969

Reduced apoptosis in Chinese hamster ovary cells via optimized CRISPR interference

Kai Xiong(Novo Nordisk Foundation), Kim Fabiano Marquart(Novo Nordisk Foundation), Karen Julie la Cour Karottki(Novo Nordisk Foundation), Shangzhong Li(Foundation Center), Isaac Shamie(Foundation Center), Jae Seong Lee(Ajou University), Signe Gerling(Novo Nordisk Foundation), Nan Cher Yeo(University of Alabama), Alejandro Chavez(Columbia University), Gyun Min Lee(Korea Advanced Institute of Science and Technology), Nathan E. Lewis(Foundation Center), Helene Faustrup Kildegaard(Novo Nordisk Foundation)

Biotechnology and Bioengineering

March 18, 2019

10.1002/bit.26969

Cited by 54Open Access

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Abstract

Chinese hamster ovary (CHO) cells are widely used for biopharmaceutical protein production. One challenge limiting CHO cell productivity is apoptosis stemming from cellular stress during protein production. Here we applied CRISPR interference (CRISPRi) to downregulate the endogenous expression of apoptotic genes Bak, Bax, and Casp3 in CHO cells. In addition to reduced apoptosis, mitochondrial membrane integrity was improved and the caspase activity was reduced. Moreover, we optimized the CRISPRi system to enhance the gene repression efficiency in CHO cells by testing different repressor fusion types. An improved Cas9 repressor has been identified by applying C-terminal fusion of a bipartite repressor domain, KRAB-MeCP2, to nuclease-deficient Cas9. These results collectively demonstrate that CHO cells can be rescued from cell apoptosis by targeted gene repression using the CRISPRi system.

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