AIMS/HYPOTHESIS: Efficient stimulation of cycling activity in cultured beta cells would allow the design of new strategies for cell therapy in diabetes. Neural crest stem cells (NCSCs) play a role in beta cell development and maturation and increase the beta cell number in co-transplants. The mechanism behind NCSC-induced beta cell proliferation and the functional capacity of the new beta cells is not known. METHODS: We developed a new in vitro co-culture system that enables the dissection of the elements that control the cellular interactions that lead to NCSC-dependent increase in islet beta cells. RESULTS: Mouse NCSCs were cultured in vitro, first in medium that stimulated their proliferation, then under conditions that supported their differentiation. When mouse islet cells were cultured together with the NCSCs, more than 35% of the beta cells showed cycle activity. This labelling index is more than tenfold higher than control islets cultured without NCSCs. Beta cells that proliferated under these culture conditions were fully glucose responsive in terms of insulin secretion. NCSCs also induced beta cell proliferation in islets isolated from 1-year-old mice, but not in dissociated islet cells isolated from human donor pancreas tissue. To stimulate beta cell proliferation, NCSCs need to be in intimate contact with the beta cells. CONCLUSIONS/ INTERPRETATION: Culture of islet cells in contact with NCSCs induces highly efficient beta cell proliferation. The reported culture system is an excellent platform for further dissection of the minimal set of factors needed to drive this process and explore its potential for translation to diabetes therapy.
AIMS/HYPOTHESIS: Efficient stimulation of cycling activity in cultured beta cells would allow the design of new strategies for cell therapy in diabetes. Neural crest stem cells (NCSCs) play a role in beta cell development and maturation and increase the beta cell number in co-transplants. The mechanism behind NCSC-induced beta cell proliferation and the functional capacity of the new beta cells is not known. METHODS: We developed a new in vitro co-culture system that enables the dissection of the elements that control the cellular interactions that lead to NCSC-dependent increase in islet beta cells. RESULTS:Mouse NCSCs were cultured in vitro, first in medium that stimulated their proliferation, then under conditions that supported their differentiation. When mouse islet cells were cultured together with the NCSCs, more than 35% of the beta cells showed cycle activity. This labelling index is more than tenfold higher than control islets cultured without NCSCs. Beta cells that proliferated under these culture conditions were fully glucose responsive in terms of insulin secretion. NCSCs also induced beta cell proliferation in islets isolated from 1-year-old mice, but not in dissociated islet cells isolated from humandonor pancreas tissue. To stimulate beta cell proliferation, NCSCs need to be in intimate contact with the beta cells. CONCLUSIONS/ INTERPRETATION: Culture of islet cells in contact with NCSCs induces highly efficient beta cell proliferation. The reported culture system is an excellent platform for further dissection of the minimal set of factors needed to drive this process and explore its potential for translation to diabetes therapy.
Authors: Jens Hjerling-Leffler; Frédéric Marmigère; Mikael Heglind; Anna Cederberg; Martin Koltzenburg; Sven Enerbäck; Patrik Ernfors Journal: Development Date: 2005-05-04 Impact factor: 6.868
Authors: S Perl; J A Kushner; B A Buchholz; A K Meeker; G M Stein; M Hsieh; M Kirby; S Pechhold; E H Liu; D M Harlan; J F Tisdale Journal: J Clin Endocrinol Metab Date: 2010-07-21 Impact factor: 5.958
Authors: Jonathan C Schisler; Patrick T Fueger; Daniella A Babu; Hans E Hohmeier; Jeffery S Tessem; Danhong Lu; Thomas C Becker; Bashoo Naziruddin; Marlon Levy; Raghavendra G Mirmira; Christopher B Newgard Journal: Mol Cell Biol Date: 2008-03-17 Impact factor: 4.272
Authors: Gang Miao; John Mace; Michael Kirby; Andrew Hopper; Ricardo Peverini; Richard Chinnock; James Shapiro; Eba Hathout Journal: Transplantation Date: 2006-02-27 Impact factor: 4.939
Authors: Luiz F Rezende; Luiz F Stoppiglia; Kleber L A Souza; Alessandro Negro; Francesco Langone; Antonio C Boschero Journal: J Endocrinol Date: 2007-10 Impact factor: 4.286
Authors: J Olerud; N Kanaykina; S Vasylovska; S Vasilovska; D King; M Sandberg; L Jansson; E N Kozlova Journal: Diabetologia Date: 2009-10-13 Impact factor: 10.122
Authors: Nikos Schizas; N König; B Andersson; S Vasylovska; J Hoeber; E N Kozlova; N P Hailer Journal: Cell Tissue Res Date: 2018-03-07 Impact factor: 5.249
Authors: Anongnad Ngamjariyawat; Kyril Turpaev; Svitlana Vasylovska; Elena N Kozlova; Nils Welsh Journal: PLoS One Date: 2013-04-17 Impact factor: 3.240
Authors: Anja Brboric; Svitlana Vasylovska; Jonna Saarimäki-Vire; Daniel Espes; José Caballero-Corbalan; Gunnar Larfors; Timo Otonkoski; Joey Lau Journal: Ups J Med Sci Date: 2019-10-18 Impact factor: 2.384