Design of iPSC-based cell model to study the functions of the <i>UBE2A</i> gene

Abstract

BACKGROUND: The UBE2A protein belongs to the E2 family of ubiquitin-binding enzymes involved in the ubiquitination of substrate proteins. UBE2A mutations lead to congenital X-linked mental retardation syndrome-type Nascimento. How UBE2A participates in the central nervous system development is still unknown. AIM: To establish a cell model based on induced pluripotent stem cells (iPSCs) to study the molecular and cellular functions of UBE2A in neurogenesis. METHODS: Using genomic CRISPR-Cas9 editing and lentiviral transduction, a cell model based on iPSCs from two healthy donors was designed. This cell model includes isogenic iPSCs with knockout and inducible hyperexpression of UBE2A. In addition, iPSCs were obtained by reprogramming peripheral blood mononuclear cells of a patient diagnosed with X-linked mental retardation of Nascimento type, which has a deletion spanning the whole UBE2A locus. RESULTS: The obtained iPSCs demonstrate an ESC-like morphology. They express pluripotent cell markers OCT4, SOX2, SSEA-4, and TRA-1-81 and have normal karyotypes. iPSCs with UBE2A knockout or hyperexpression had significantly increased nuclei size compared with the isogenic control. CONCLUSION: The developed iPSC-based cell model can be used for fundamental studies of the functions of UBE2A in neurogenesis.