An arrayed CRISPR screen reveals Myc depletion to increase productivity of difficult-to-express complex antibodies in CHO cells.

Complex therapeutic antibody formats, such as bispecifics (bsAbs) or cytokine fusions, may provide new treatment options in diverse disease areas. However, the manufacturing yield of these complex antibody formats in Chinese Hamster Ovary (CHO) cells is lower than monoclonal antibodies due to challenges in expression levels and potential formation of side products. To overcome these limitations, we performed a clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR associated protein 9 (Cas9)-based knockout (KO) arrayed screening of 187 target genes in two CHO clones expressing two different complex antibody formats in a production-mimicking set-up. Our findings revealed that Myc depletion drastically increased product expression (>40%) by enhancing cell-specific productivity. The Myc-depleted cells displayed decreased cell densities together with substantially higher product titers in industrially-relevant bioprocesses using ambr15 and ambr250 bioreactors. Similar effects were observed across multiple different clones, each expressing a distinct complex antibody format. Our findings reinforce the mutually exclusive relationship between growth and production phenotypes and provide a targeted cell engineering approach to impact productivity without impairing product quality. We anticipate that CRISPR/Cas9-based CHO host cell engineering will transform our ability to increase manufacturing yield of high-value complex biotherapeutics.

FcRγ Gene Editing Reprograms Conventional NK Cells to Display Key Features of Adaptive Human NK Cells.

Adaptive human natural killer (NK) cells display significantly enhanced responsiveness to a broad-range of antibody-bound targets through the engagement of CD16 compared to conventional NK cells, yet direct reactivity against tumor targets is generally reduced. Adaptive NK cells also display a distinct phenotype and differential expression of numerous genes, including reduced expression of signaling adapter FcRγ and transcription factor PLZF. However, it is unclear whether differential expression of specific genes is responsible for the characteristics of adaptive NK cells. Using CRISPR-Cas9, we show deletion of FcRγ in conventional NK cells led to enhanced CD16 responsiveness, abolished cell surface expression of natural cytotoxicity receptors, NKp46 and NKp30, and dramatically reduced responsiveness to K562 and Raji tumor cells. However, deletion of PLZF had no notable effects. These results suggest multiple roles for FcRγ and identify its deficiency as an important factor responsible for the functional and phenotypic characteristics exhibited by adaptive NK cells.