Abstract
The gallbladder and cystic duct (GBCs) are parts of the extrahepatic biliary tree and share a common developmental origin with the ventral pancreas. Here, we report on the very first genetic reprogramming of patient-derived human GBCs to β-like cells for potential autologous cell replacement therapy for type 1 diabetes. We developed a robust method for large-scale expansion of human GBCs ex vivo. GBCs were reprogrammed into insulin-producing pancreatic β-like cells by a combined adenoviral-mediated expression of hallmark pancreatic endocrine transcription factors PDX1, MAFA, NEUROG3, and PAX6 and differentiation culture in vitro. The reprogrammed GBCs (rGBCs) strongly induced the production of insulin and pancreatic endocrine genes and these responded to glucose stimulation in vitro. rGBCs also expressed an islet-specific surface marker, which was used to enrich for the most highly reprogrammed cells. More importantly, global mRNA and microRNA expression profiles and protein immunostaining indicated that rGBCs adopted an overall β-like state and these rGBCs engrafted in immunodeficient mice. Furthermore, comparative global expression analyses identified putative regulators of human biliary to β cell fate conversion. In summary, we have developed, for the first time, a reliable and robust genetic reprogramming and culture expansion of primary human GBCs—derived from multiple unrelated donors—into pancreatic β-like cells ex vivo, thus showing that human gallbladder is a potentially rich source of reprogrammable cells for autologous cell therapy in diabetes.
Highlights
Type 1 Diabetes Mellitus (T1DM) is a metabolic disorder characterized by hyperglycemia caused by autoimmune-mediated destruction of pancreatic β cells leading to a complete or near total loss of the hormone insulin [1, 2]
We developed a reliable method for the large-scale expansion of patient-derived human gallbladder cells (GBCs) ex vivo for the purpose of genetic reprogramming to β cell fate
For human gallbladder to be a practical source for β cell replacement, a reliable culture and expansion method needs to be in place
Summary
Type 1 Diabetes Mellitus (T1DM) is a metabolic disorder characterized by hyperglycemia caused by autoimmune-mediated destruction of pancreatic β cells leading to a complete or near total loss of the hormone insulin [1, 2]. Administration of exogenous insulin is still the mainstay of treatment, but this is not always sufficient to prevent chronic complications of the retina, kidneys, peripheral nerves, and blood vessels. Replacement of β cells (either by whole pancreas or islet cell transplantation) is the best available method for restoring a physiologic glycemic control and improvement of diabetes complications [3, 4]. Insulin-producing cells from human gallbladder decision to publish, or preparation of the manuscript
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