CRISPR-Mediated In Situ Introduction or Integration of F9-Padua in Human iPSCs for Gene Therapy of Hemophilia B

Abstract: Hemophilia B (HB) is an X-linked recessive disease caused by F9 gene mutation and functional coagulation factor IX (FIX) deficiency. Patients suffer from chronic arthritis and death threats owing to excessive bleeding. Compared with traditional treatments, gene therapy for HB has obvious advantages, especially when the hyperactive FIX mutant (FIX-Padua) is used. However, the mechanism by which FIX-Padua works remains ambiguous due to a lack of research models. Here, in situ introduction of F9-Padua mutation wa… Show more

“…Subsequently, FIX activity in the cell supernatant was quantified, revealing a remarkable increase of 4.2-fold compared to normal cells and a substantial enhancement of 63.64% above the average level. These findings offer valuable insights into the therapeutic mechanism of HB gene therapy and provide a new idea for investigating gene therapy for HB treatment [64].…”

Applications and Research Advances in the Delivery of CRISPR/Cas9 Systems for the Treatment of Inherited Diseases

“…Subsequently, FIX activity in the cell supernatant was quantified, revealing a remarkable increase of 4.2-fold compared to normal cells and a substantial enhancement of 63.64% above the average level. These findings offer valuable insights into the therapeutic mechanism of HB gene therapy and provide a new idea for investigating gene therapy for HB treatment [64].…”

Applications and Research Advances in the Delivery of CRISPR/Cas9 Systems for the Treatment of Inherited Diseases

Application of CRISPR–Cas Technology in Drug Development

Treatment of congenital coagulopathies, from biologic to biotechnological drugs: The relevance of gene editing (CRISPR/Cas)