[1]曹书义,袁莉.胰腺上皮细胞可能成为胰岛β细胞再生的新来源[J].国际内分泌代谢杂志,2015,(02):114-116.[doi:10.3760/cma.j.issn.1673-4157.2015.02.011]
 Cao Shuyi,Yuan Li..Pancreatic epithelium may be a new source of islet β cells regeneration[J].International Journal of Endocrinology and Metabolism,2015,(02):114-116.[doi:10.3760/cma.j.issn.1673-4157.2015.02.011]
点击复制

胰腺上皮细胞可能成为胰岛β细胞再生的新来源()
分享到:

《国际内分泌代谢杂志》[ISSN:1673-4157/CN:12-1383/R]

卷:
期数:
2015年02
页码:
114-116
栏目:
综述
出版日期:
2015-03-20

文章信息/Info

Title:
Pancreatic epithelium may be a new source of islet β cells regeneration
作者:
曹书义袁莉
430022 武汉,华中科技大学同济医学院附属协和医院内分泌科
Author(s):
Cao ShuyiYuan Li.
Department of Endocrinology,Union Hospital,Tongji Medical College,Huazhong University of Science and Technology,Wuhan 430022,China Corresponding author:Yuan Li,Email:yuanli18cn@yahoo.com.cn
关键词:
糖尿病胰腺上皮细胞胰岛β细胞再生
Keywords:
Diabetes mellitusPancreatic epithelial cellsIslet β cellsRegeneration
DOI:
10.3760/cma.j.issn.1673-4157.2015.02.011
摘要:
促进β细胞再生,维持功能性β细胞的数量,是治疗糖尿病的根本。胰腺上皮细胞包括β细胞、导管细胞、腺泡细胞及α细胞。研究表明,与多能干细胞相比,这些成体细胞具有更明显的优势,可能通过不同途径重新生成β细胞从而实现β细胞的再生。已分化的β细胞可以被诱导增殖或者退回至祖细胞状态重新分化为β细胞。而在胰腺受损、代谢应激、基因操作等条件下,其他胰腺上皮细胞可能直接转分化为β细胞或者成为内分泌兼性祖细胞再分化为β细胞。
Abstract:
Promoting β cells regeneration and increasing the number of functional β cells is crucial to treat diabetes. Pancreatic epithelial cells include β cell,duct cell acinar cell,and α cell. Compared with pluripotent stem cells,the adult cells have a clear advantage to realize the regeneration of β cells through different pathways. The differentiated β cells can be induced to proliferation or lost to dedifferentiation.Then the dedifferentiated cells may redifferentiate to β cells. Under specific conditions such as damaged pancreas,metabolic stress,genetic operation,other cells in pancreatic epithelium also exhibit the plasticity to go directly to β cells or become endocrine facultative progenitor cells to reprogramme into β cells.

参考文献/References:

[1] Avrahami D,Kaestner KH.Epigenetic regulation of pancreas development and function[J].Semin Cell Dev Biol,2012,23(6):693-700.  
[2] Gregg BE,Moore PC,Demozay D,et al.Formation of a human beta-cell population within pancreatic islets is set early in life[J].J Clin Endocrinol Metab,2012,97(9):3197-3206.  
[3] Caballero F,Siniakowicz K,Hollister-Lock J,et al.Birth and death of human beta-cells in pancreases from cadaver donors,autopsies,surgical specimens,and islets transplanted into mice[J].Cell Transplant,2014,23(2):139-151.  
[4] Gargani S,Thevenet J,Yuan JE,et al.Adaptive changes of human islets to an obesogenic environment in the mouse[J].Diabetologia, 2013,56(2):350-358.  
[5] Levitt HE,Cyphert TJ,Pascoe JL,et al.Glucose stimulates human beta cell replication in vivo in islets transplanted into NOD-severe combined immunodeficiency(SCID)mice[J]. Diabetologia,2011,54(3):572-582.  
[6] Porat S,Weinberg-Corem N,Tornovsky-Babaey S,et al.Control of pancreatic beta cell regeneration by glucose metabolism[J].Cell Metab,2011,13(4):440-449.  
[7] Stolovich-Rain M,Hija A,Grimsby J,et al.Pancreatic beta cells in very old mice retain capacity for compensatory proliferation[J]. J Biol Chem,2012,287(33):27407-27414.  
[8] Criscimanna A,Speicher JA,Houshmand G,et al.Duct cells contribute to regeneration of endocrine and acinar cells following pancreatic damage in adult mice[J].Gastroenterology,2011,141(4):1451-1462,1462.e1-6.  
[9] Yoneda S,Uno S,Iwahashi H,et al.Predominance of beta-cell neogenesis rather than replication in humans with an impaired glucose tolerance and newly diagnosed diabetes[J]. J Clin Endocrinol Metab, 2013,98(5):2053-2061.
[10] Rankin MM,Wilbur CJ,Rak K,et al.beta-Cells are not generated in pancreatic duct ligation-induced injury in adult mice[J].Diabetes, 2013,62(5):1634-1645.
[11] Pan FC,Bankaitis ED,Boyer D,et al.Spatiotemporal patterns of multipotentiality in Ptf1a-expressing cells during pancreas organogenesis and injury-induced facultative restoration[J].Development, 2013,140(4):751-764.
[12] Yu L,Luo JX,Wei JL,et al.Insulin-producing acinar cells in adult human pancreas[J].Pancreas,2014,43(4):592-596.
[13] Baeyens L,Lemper M,Leuckx G,et al.Transient cytokine treat-ment induces acinar cell reprogramming and regenerates func-tional beta cell mass in diabetic mice[J].Nat Biotechnol, 2014,32(1):76-83.
[14] Bramswig NC,Everett LJ,Schug J,et al.Epigenomic plasticity enables human pancreatic alpha to beta cell reprogramming[J]. J Clin Invest,2013,123(3):1275-1284.
[15] Yang YP,Thorel F,Boyer DF,et al.Context-specific alpha- to-beta-cell reprogramming by forced Pdx1 expression[J].Genes Dev,2011,25(16):1680-1685.
[16] Al-Hasani K,Pfeifer A,Courtney M,et al.Adult duct-lining cells can reprogram into beta-like cells able to counter repeated cycles of toxin-induced diabetes[J].Dev Cell, 2013,26(1):86-100.
[17] Thorel F,Nepote V,Avril I,et al.Conversion of adult pancreatic alpha-cells to beta-cells after extreme beta-cell loss[J].Nature, 2010,464(7292):1149-1154.
[18] Saisho Y,Manesso E,Butler AE,et al.Ongoing beta-cell turnover in adult nonhuman primates is not adaptively increased in streptozotocin-induced diabetes[J].Diabetes,2011,60(3):848-856.
[19] Talchai C,Xuan S,Lin HV,et al.Pancreatic beta cell dediffer-entiation as a mechanism of diabetic beta cell failure[J].Cell, 2012,150(6):1223-1234.
[20] White MG,Marshall HL,Rigby R,et al.Expression of mes-enchymal and ?琢-cell phenotypic markers in islet β-cells in recently diagnosed diabetes[J]. Diabetes Care,2013,36(11):3818-3820.
[21] Fiori JL,Shin YK,Kim W,et al.Resveratrol prevents beta-cell dedifferentiation in nonhuman primates given a high-fat/high-sugar diet[J]. Diabetes,2013,62(10):3500-3513.
[22] Weir GC,Aguayo-Mazzucato C,Bonner-Weir S.beta-cell dedif-ferentiation in diabetes is important, but what is it?[J].Islets,2013,5(5):233-237.
[23] Wang Z,York NW,Nichols CG,et al.Pancreatic beta cell dedif-ferentiation in diabetes and redifferentiation following insulin therapy[J].Cell Metab,2014,19(5):872-882.

相似文献/References:

[1]郑少雄.罗格列酮和心血管风险——近期文献解读[J].国际内分泌代谢杂志,2007,(04):231.
[2]凌厉,朱本章.胰岛素类似物安全性研究进展[J].国际内分泌代谢杂志,2007,(04):234.
[3]李颖,刘东方.餐后1小时血糖升高的意义及干预[J].国际内分泌代谢杂志,2007,(04):235.
[4]崔巍,施秉银.内质网应激介导β细胞生存/死亡的研究进展[J].国际内分泌代谢杂志,2007,(04):256.
[5]杨叶虹,胡仁明.SELDI-TOF-MS技术及其在糖尿病研究中的应用[J].国际内分泌代谢杂志,2007,(04):261.
[6]高妍.针对华人糖尿病特点优化降糖方案[J].国际内分泌代谢杂志,2007,(04):269.
[7]杨志霞,郭莹辉,杨永生,等.胰岛素泵和多次皮下注射治疗糖尿病的比较[J].国际内分泌代谢杂志,2007,(04):273.
[8]周建英,马向华.胃旁路术减肥同时改善糖代谢的机制[J].国际内分泌代谢杂志,2007,(04):285.
[9]李翠柳,朱大龙.破译肠道代谢信息,驱动治疗革新[J].国际内分泌代谢杂志,2014,(06):383.[doi:10.3760/cma.j.issn.1673-4157.2014.06.006]
 Li Cuiliu*,Zhu Dalong..Deciphering metabolic messages from the gut drives therapeutic innovation[J].International Journal of Endocrinology and Metabolism,2014,(02):383.[doi:10.3760/cma.j.issn.1673-4157.2014.06.006]
[10]袁捷 姜云生 杜彦丽 王肃.1型糖尿病对小鼠早孕时期子宫肌层结构和细胞增殖的影响[J].国际内分泌代谢杂志,2015,(01):6.[doi:10.3760/cma.j.issn.1673-4157.2015.01.002]
 Yuan JieJiang YunshengDu YanliWang Su.Effects of type 1 diabetes on the muscularis structure and cell proliferation of uterine in mice during early pregnancy[J].International Journal of Endocrinology and Metabolism,2015,(02):6.[doi:10.3760/cma.j.issn.1673-4157.2015.01.002]

备注/Memo

备注/Memo:
通信作者:袁莉,Email: yuanli18cn@yahoo.com.cn
更新日期/Last Update: 2015-03-20