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In vivo HSC gene therapy for SARS-CoV2 infection using a decoy receptor.

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While SARS-CoV2 vaccines have shown an unprecedented success, the ongoing emergence of new variants and necessity to adjust vaccines justifies the development of alternative prophylaxis and therapy approaches. Hematopoietic stem… Click to show full abstract

While SARS-CoV2 vaccines have shown an unprecedented success, the ongoing emergence of new variants and necessity to adjust vaccines justifies the development of alternative prophylaxis and therapy approaches. Hematopoietic stem cell (HSC) gene therapy using a secreted CoV2 decoy receptor protein (sACE2-Ig) would involve a one-time intervention resulting in long-term protection against airway infection, viremia, and extrapulmonary symptoms. We recently developed a technically simple and portable in vivo hematopoietic HSC transduction approach that involves HSC mobilization from the bone marrow into the peripheral blood stream and the intravenous injection of an integrating, helper-dependent adenovirus (HDAd5/35++) vector system. Considering the abundance of erythrocytes, here, we directed sACE2-Ig expression to erythroid cells using strong beta-globin transcriptional regulatory elements. We performed in vivo HSC transduction of CD46-transgenic mice with a HDAd-sACE2-Ig vector. Serum sACE2-Ig levels reached 500-1300 ng/ml after in vivo selection. At 22 weeks, we used genetically modified HSCs from these mice to substitute the hematopoietic system in human ACE2-transgenic mice, thus creating a model that is susceptible to SARS-CoV2 infection. Upon challenge with a lethal dose of CoV2 (WA-1), sACE2-Ig expressed from erythroid cells of test mice diminishes infection sequelae. Treated mice lost significantly less weight, had less viremia, displayed reduced cytokine production and lung pathology. The second objective of this study was to assess the safety of in vivo HSC transduction and long-term sACE2-Ig expression in a rhesus macaque. With appropriate cytokine prophylaxis, intravenous injection of HDAd-sACE2-Ig into the mobilized animal was well tolerated. In vivo transduced HSCs preferentially localized to and survived in the spleen. sACE2-Ig expressed from erythroid cells did not affect erythropoiesis and the function of erythrocytes. While these pilot studies are promising, the anti-viral efficacy of the approach has to be improved, e.g. by using of decoy receptors with enhanced neutralizing capacity and/or expression of multiple anti-viral effector proteins.

Keywords: sars cov2; vivo; vivo hsc; therapy; gene therapy; sace2

Journal Title: Human gene therapy
Year Published: 2022

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