Human bone marrow-derived mesenchymal cells differentiate and mature into endocrine pancreatic lineage in vivo

Abstract

Background aims. The scarcity of human islets for transplantation remains a major limitation of cell replacement therapy for diabetes. Bone marrow-derived progenitor cells are of interest because they can be isolated, expanded and offered for such therapy under autologous/allogeneic settings. Methods. We characterized and compared human bone marrow-derived mesenchymal cells (hBMC) obtained from (second trimester), young (1–24 years) and adult (34–81 years) donors. We propose a novel protocol that involves assessment of paracrine factors from regenerating pancreas in differentiation and maturation of hBMC into endocrine pancreatic lineage in vivo. Results. We observed that donor age was inversely related to growth potential of hBMC. Following in vitro expansion and exposure to specific growth factors involved in pancreatic development, hBMC migrated and formed islet-like cell aggregates (ICA). ICA show increased abundance of pancreatic transcription factors (Ngn3, Brn4, Nkx6.1, Pax6 and Isl1). Although efficient differentiation was not achieved in vitro, we observed significant maturation and secretion of human c-peptide (insulin) upon transplantation into pancreactomized and Streptozotocin (STZ)-induced diabetic mice. Transplanted ICA responded to glucose and maintained normoglycemia in diabetic mice. Conclusions. Our data demonstrate that hBMC have tremendous in vitro expansion potential and can be differentiated into multiple lineages, including the endocrine pancreatic lineage. Paracrine factors secreted from regenerating pancreas help in efficient differentiation and maturation of hBMC, possibly via recruiting chromatin modulators, to generate glucose-responsive insulin-secreting cells.

Key Words::

• diabetes
• endocrine differentiation
• human bone marrow
• in vivo maturation
• transplantation

Acknowledgments

Authors thank Dr Vinay M. Joglekar, Shree Seva Medical Foundation, Shirwal, and Dr Ashutosh Hardikar, Cardiothorasic Surgery Unit, DM Hospital, Pune, for their assistance in providing the marrow samples. The authors thank the Directors of NCCS and ARI for all the support. This project was supported through project grants to AAH, RRB and SMG from Department of Biotechnology, Government of India. SMP, MVJ and SM are supported by a fellowship from the Council of Scientific and Industrial Research, Government of India.

Conflict of interest: None to declare.