Shamim H. Rahman scite author profile

Production of glycoprotein therapeutics in Chinese hamster ovary (CHO) cells is limited by the cells' generic capacity for N-glycosylation, and production of glycoproteins with desirable homogeneous glycoforms remains a challenge. We conducted a comprehensive knockout screen of glycosyltransferase genes controlling N-glycosylation in CHO cells and constructed a design matrix that facilitates the generation of desired glycosylation, such as human-like α2,6-linked sialic acid capping. This engineering approach will aid the production of glycoproteins with improved properties and therapeutic potential.

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Zinc-Finger Nucleases for Somatic Gene Therapy: The Next Frontier

Rahman

Maeder

Joung

et al. 2011

Human Gene Therapy

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Zinc-finger nucleases (ZFNs) are a powerful tool that can be used to edit the human genome ad libitum. The technology has experienced remarkable development in the last few years with regard to both the target site specificity and the engineering platforms used to generate zinc-finger proteins. As a result, two phase I clinical trials aimed at knocking out the CCR5 receptor in T cells isolated from HIV patients to protect these lymphocytes from infection with the virus have been initiated. Moreover, ZFNs have been successfully employed to knockout or correct disease-related genes in human stem cells, including hematopoietic precursor cells and induced pluripotent stem cells. Targeted genome engineering approaches in multipotent and pluripotent stem cells hold great promise for future strategies geared toward correcting inborn mutations for personalized cell replacement therapies. This review describes how ZFNs have been applied to models of gene therapy, discusses the opportunities and the risks associated with this novel technology, and suggests future directions for their safe application in therapeutic genome engineering.

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Targeted genome editing in pluripotent stem cells using zinc-finger nucleases

Bobis‐Wozowicz

Osiak

Rahman

et al. 2011

Methods

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Shamim H. Rahman

Unexpected failure rates for modular assembly of engineered zinc fingers

Engineered CHO cells for production of diverse, homogeneous glycoproteins

Zinc-Finger Nucleases for Somatic Gene Therapy: The Next Frontier

Targeted genome editing in pluripotent stem cells using zinc-finger nucleases

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