| IPA Network (Figure) | miRNA | miRNA target | Regulatory feedback loop | Confirmed biological functions | Proposed role in CP | Ref. nos. | ||
| Gene | FC | mRNA | FC | |||||
| Figure 2 | miR130b | decrease | MafB | decrease | miR-130b ―MafB | MicroRNA fingerprints during human megakaryocytopoiesis. | Maf family transfription factors may be involved in beta cell dysfunction | 23863625 |
| Figure 2 | miR-27b | decrease | FoxO1 | increase | miR-27b ―FoxO1 | Coordinate regulation of FOXO1 by miR-27a, miR-96, and miR-182 in breast cancer cells. | FoxO1 gain of function in pancreas causes glucose intolerance, polycystic pancreas, and islet hyper vascularization. | 19574223, 22384192 |
| Figure 2 | miR-29 family | decrease | IFN G | increase | miR-29 ―IFN g | miR29 controls innate and adaptive immune responses to intracellular bacterial infection bytargeting interferon-γ. | Interferon γ and glycemic status in diabetes associated with chronic pancreatitis and its role in fibrogenesis | 21785411, 22487478, 20971881 |
| Figure 2 | miR375 | decrease | JAK2 | Not known | miR375 ―JAK2 | miR-375 may function as a tumor suppressor to regulate gastric cancer cell proliferation potentially by targeting the JAK2 oncogene, implicating a role of miR-375 in the pathogenesis of gastric cancer | JAK2 mediated pathways were shown to stimulate replication and survival of β-cells | 20548334, 22045263 |