Generation of hemophilia B model hepatocyte derived from human iPSC via CRISPR/Cas9 mediated genome editing

Kwak, Peter

12 July 2018

Permanent repair of the F9 gene is a significant goal to cure Hemophilia B disease. Advanced gene therapy using CRISPR/Cas9 system can increase circulation level of Factor IX proteins to a significant level without the need of demanding infusions of FIX concentrates. Induced pluripotent stem cells represent an ideal cell for gene therapy because patient-derived cells could be reprogrammed into iPSCs, genetically modified, selected, expanded and then induced to differentiate into fully functional hepatocytes in vitro. This study covered a portion of a 5-year project which ultimately aims at establishing therapeutic results in transgenic Hemophilia B mice by injecting genetically corrected iPSC-derived hepatocytes into the liver. The purpose of this thesis is to summarize what has been completed up to now: generation of the proper model of Hemophilia B human iPSCs using CRISPR/Cas9-mediated genome editing and differentiation of healthy and disease specific iPSCs into hepatocytes which will allow disease modelling to look for cell function, viability, homogeneity and drug screening. Further research will be done to effectively knock-in the F9 allele into liver safe harbor site of disease specific iPSCs, which will express FIX at a significant level to show therapeutic effects.

Medicine

CRISPR/Cas9

F9

Factor IX

Hemophilia B

Hepatocytes

iPSC

Regulation of Prelamin a Endoprotease Activity by Prelamin A

Kilic, Fusun, Salas-Marco, Joe, Garland, John, Sinensky, Michael

01 September 1997

The maturation of lamin A is completed by the endoproteolytic cleavage of its farnesylated precursor protein, prelamin A. In the absence of this cleavage, prelamin A can neither give rise to lamin A nor assemble into the nuclear lamina. We call the enzyme which catalyzes this endoproteolytic step the 'prelamin A endoprotease'. In this study, we begin characterization of the regulation of prelamin A endoprotease. In particular, we address the question as to whether prelamin A endoprotease activity is constitutive in cells or responds to expression of prelamin A. To do this, we compared the activity of this novel endoprotease in cells which express prelamin A with those that do not. Our data shows that the enzymatic activity of prelamin A endoprotease is enhanced by the expression of prelamin A.

HeLa cell

prelamin A

prelamin A endoprotease

promyelocytic leukemia ceil (HL60)

teratocarcinoma cell (F9)