Return to search

Differentiation of human cell line towards a pancreatic endocrine lineage

Islet transplantations have been successful in restoring glucose homeostasis in patients with diabetes; however, the limited number of donor organs limits the success of this treatment. The lineage reprograming of different cell sources to beta cells potentially provides an unlimited supply of insulin-producing cells for regenerative therapy for patients with diabetes. The aim of this study was to investigate the ability to transdifferentiate two cell lines into an endocrine lineage. Insulin production in pancreatic beta cells can be increased using a small molecule, 3,5-disubstituted isoxazole, N-cyclopropyl-t-(thiophen-2-yl)isoxazole-3-carboxamide (isoxazole) but its effect on other cell types has not been reported. Here, we investigated the lineage reprogramming of PANC-1 pancreatic ductal cells to insulin producing cells by isoxazole treatment. Gene expression was performed using RT-PCR and qPCR for approximately 30 genes critical to beta cell development and function. In addition, quantitative proteomic profiling was performed using LC-MS by monitoring protein abundance in isoxazole-treated PANC-1 cells compared to time-matched controls. Isoxazole treatment stimulated PANC-1 cells to aggregate into islet-like clusters and gene expression analysis revealed induction of important developmental beta cell markers including NGN3, NEUROD1 and INSULIN. In addition, beta cell surface markers were also upregulated such as CD200, GPR50, TROP-2, GLUT2 and SLC30A8. Using LC-MS a catalogue of approximately 2400 identified proteins was generated; 257 proteins were differentially expressed in isoxazole-treated cells compared to DMSO-vehicle controls at p < 0.05. Amongst the proteins upregulated were molecules that regulate metabolic processes and cytoskeletal reorganisation. The expression of the majority of these proteins has not been previously reported or studied in the context of beta cell differentiation. Functional analysis of the relative protein changes was determined using Ingenuity Pathway Analysis, IPA, and gene ontology, GO, software, which revealed the regulation of several cellular canonical pathways including metabolic pathways, cell adhesion, remodelling of epithelial adherens junctions and actin cytoskeleton signalling. The effects of isoxazole were further studied in the A549 lung cancer cell line. Similar effects were observed, such as the induction of pro-endocrine markers NGN3 and NEUROD1 and endocrine-specific hormones INS and GCG. These results indicate that isoxazole has the capacity to transdifferentiate pancreatic and non-pancreatic cell origins into an endocrine lineage. This study reveals the powerful induction capacity of isoxazole in inducing cellular reprogramming events.

Identiferoai:union.ndltd.org:bl.uk/oai:ethos.bl.uk:764455
Date January 2016
CreatorsGsour, Amna
ContributorsCosgrove, Karen
PublisherUniversity of Manchester
Source SetsEthos UK
Detected LanguageEnglish
TypeElectronic Thesis or Dissertation
Sourcehttps://www.research.manchester.ac.uk/portal/en/theses/differentiation-of-human-cell-line-towards-a-pancreatic-endocrine-lineage(0c2c21fe-724d-449f-804c-02741c89828c).html

Page generated in 0.002 seconds