NEW YORK – New York Blood Center Enterprises’ (NYBCe) Lindsley F. Kimball Research Institute (LFKRI) today announced a scientific collaboration with Biohub to develop optimized methodologies for deriving induced pluripotent stem cells (iPSCs) from defined immune cell populations isolated from cord blood units (CBUs).
The multi-phase effort leverages NYBCe’s donor-consented cord blood resources from the National Cord Blood Program (NCBP), which maintains an inventory of over 30,000 CBUs for clinical transplantation, along with LFKRI’s expertise in high-resolution cell sorting, hematology and stem/progenitor cell research. Biohub contributes expertise in reprogramming defined immune cell subsets into iPSCs, preserving the genetic signatures that encode specific immune functions and effectively immortalizing donor cells for long-term research use. This approach is grounded in Biohub’s efforts to engineer immune cells for early disease detection and treatment.
Together, the teams are establishing standardized, reproducible workflows to isolate specific immune cell populations and evaluate their efficiency in generating iPSCs.
By incorporating NYBCe’s homozygous HLA cord blood units, the effort aims to create broadly compatible iPSC lines with strong translational potential in regenerative medicine, disease modeling, and cell therapy. The resulting cell lines will serve as shared research resources, enabling systematic study of cell-of-origin effects and establishing a scalable, foundational platform for cord blood–derived regenerative technologies.
This research collaboration leverages a multi-phased effort to create standardization and definitive protocols in immune cell population reprogramming into iPSCs.
“This collaboration brings together complementary strengths in cord blood biology and cellular engineering,” said Larry Luchsinger, Senior Vice President and Chief Scientific Officer at New York Blood Center Enterprises. “By combining NYBCe’s unparalleled cord blood biorepository and clinical consent infrastructure with the Biohub’s expertise in reprogramming and cell engineering, we are building a scalable platform that can accelerate discovery across immunology, regenerative medicine, and cell therapy.”
“NYBCe has built a consented, clinically validated cord blood biorepository at a scale that few institutions can match. Pairing that depth of resource with Biohub’s immune cell reprogramming program creates an opportunity that neither organization could realize independently, and we believe the platforms emerging from this collaboration will have a significant and lasting impact across the field,” said Sjoukje van der Stegen, a Senior Group Leader for Immune Cell Engineering & Development at Biohub.
Together, NYBCe and the Biohub are developing a validated approach to generate immune cell–derived iPSC resources from cord blood that can support foundational research and translational development in the years ahead.