Download PDF
Exp Clin Endocrinol Diabetes 2010; 118(10): 692-698
DOI: 10.1055/s-0030-1254151
Article

© J. A. Barth Verlag in Georg Thieme Verlag KG Stuttgart · New York

Protective Effect of Hedgehog Signaling on Cytokine-Induced Cytotoxicity in Pancreatic Beta-Cells

H. Umeda1 , N. Ozaki1 , N. Mizutani1 , T. Fukuyama1 , H. Nagasaki2 , H. Arima1 , Y. Oiso1
  • 1Department of Endocrinology and Diabetes, Field of Internal Medicine, Nagoya University Graduate School of Medicine, Nagoya, Japan
  • 2Department of Metabolic Medicine, Nagoya University School of Medicine, Nagoya, Japan
Further Information

Publication History

received 11.12.2009 first decision 14.04.2010

accepted 05.05.2010

Publication Date:
08 June 2010 (online)

Also available at
    Permissions and Reprints

Abstract

Background: Hedgehog (Hh) signaling plays an important role in pancreas development. However, its role in the developed endocrine pancreas remains to be elucidated. To clarify whether Hh signaling participates in beta-cell survival, we investigated the role of Hh signaling in cytokine-induced apoptosis in pancreatic beta-cells.

Methods: Insulin-producing INS-1E cells were transfected with Sonic Hh (Shh) expression vector or siRNA against Indian Hh (siIhh). The Hh signal inhibitor cyclopamine were pretreated in INS-1E cells and rat islets. The cells were exposed to 200 U/ml IL-1β and 200 U/ml IFN-γ for 48 h. Apoptosis was estimated by flow cytometory and immunofluorescence staining for cleaved caspase-3. Nitric oxide generation was measured by Griess reaction.

Results: We found that exposure to proinflammatory cytokines increased Ihh expression in rat islets and INS-1E cells. Overexpression of Shh reduced cytokine-induced apoptosis. By contrast, treatment with cyclopamine increased cytokine-induced apoptosis in INS-1E cells and rat islets. Treatment with the siIhh showed same results in INS-1E cells. Forced expression of Shh suppressed cytokine-induced nuclear factor-κB promoter activity, leading to attenuation of nitric oxide synthase 2 expression and nitric oxide production, while Ihh knockdown enhanced this pathway in INS-1E cells.

Conclusion: Our findings suggest that Hh signaling is implicated in protecting beta-cells from cytokine-induced cytotoxicity.

Key words

diabetes - cytokine - apoptosis - beta cells

References

  • 1 Gepts W. Pathologic anatomy of the pancreas in juvenile diabetes mellitus.  Diabetes. 1965;  14 619-633
    Google Scholar
  • 2 Corbett JA, McDaniel ML. Does nitric oxide mediate autoimmune destruction of β-cells? Possible therapeutic interventions in IDDM.  Diabetes. 1992;  41 897-903
    Google Scholar
  • 3 Baker MS, Chen X, Cao XC. et al . Expression of a dominant negative inhibitor of NF-κB protects MIN6 β-cells from cytokine-induced apoptosis.  J Surg Res. 2001;  97 117-122
    Google Scholar
  • 4 Heimberg H, Heremans Y, Jobin C. et al . Inhibition of cytokine-induced NF-κB activation by adenovirus-mediated expression of a NF-κB super-repressor prevents β-cell apoptosis.  Diabetes. 2001;  50 2219-2224
    Google Scholar
  • 5 Hayden MS, Ghosh S. Signaling to NF-κB.  Genes Dev. 2004;  18 2195-2224
    Google Scholar
  • 6 Ingham PW, McMahon AP. Hedgehog signaling in animal development: paradigms and principles.  Genes Dev. 2001;  15 3059-3087
    Google Scholar
  • 7 McMahon AP, Ingham PW, Tabin CJ. Developmental roles and clinical significance of hedgehog signaling.  Curr Top Dev Biol. 2003;  53 1-114
    Google Scholar
  • 8 Tanaka Y, Okada Y, Hirokawa N. FGF-induced vesicular release of Sonic hedgehog and retinoic acid in leftward nodal flow is critical for left-right determination.  Nature. 2005;  435 172-177
    Google Scholar
  • 9 Long F, Joeng KS, Xuan S. et al . Independent regulation of skeletal growth by Ihh and IGF signaling.  Dev Biol. 2006;  298 327-333
    Google Scholar
  • 10 Apelqvist A, Ahlgren U, Edlund H. Sonic hedgehog directs specialised mesoderm differentiation in the intestine and pancreas.  Curr Biol. 1997;  7 801-804
    Google Scholar
  • 11 Kusano KF, Pola R, Murayama T. et al . Sonic hedgehog myocardial gene therapy: tissue repair through transient reconstitution of embryonic signaling.  Nat Med. 2005;  11 1197-1204
    Google Scholar
  • 12 Sacedon R, Diez B, Nunez V. et al . Sonic hedgehog is produced by follicular dendritic cells and protects germinal center B cells from apoptosis.  J Immunol. 2005;  174 1456-1461
    Google Scholar
  • 13 Thomas MK, Lee JH, Rastalsky N. et al . Hedgehog signaling regulation of homeodomain protein islet duodenum homeobox-1 expression in pancreatic β-cells.  Endocrinology. 2001;  142 1033-1040
    Google Scholar
  • 14 Thomas MK, Rastalsky N, Lee JH. et al . Hedgehog signaling regulation of insulin production by pancreatic β-cells.  Diabetes. 2000;  49 2039-2047
    Google Scholar
  • 15 Taguchi S, Ozaki N, Umeda H. et al . Tranilast Inhibits Glucose-induced Insulin Secretion from Pancreatic β-Cells.  Horm Metab Res. 2008;  40 518-523
    Google Scholar
  • 16 Yamada T, Ozaki N, Kato Y. et al . Insulin downregulates angiopoietin-like protein 4 mRNA in 3T3-L1 adipocytes.  Biochem Biophys Res Commun. 2006;  347 1138-1144
    Google Scholar
  • 17 Eizirik DL, Flodstrom M, Karlsen AE. et al . The harmony of the spheres: inducible nitric oxide synthase and related genes in pancreatic beta cells.  Diabetologia. 1996;  39 875-890
    Google Scholar
  • 18 Eizirik DL, Darville MI. β-cell apoptosis and defense mechanisms: lessons from type 1 diabetes.  Diabetes. 2001;  50 (S 01) S64-S69
    Google Scholar
  • 19 Eizirik DL, Pavlovic D. Is there a role for nitric oxide in β-cell dysfunction and damage in IDDM?.  Diabetes Metab Rev. 1997;  13 293-307
    Google Scholar
  • 20 Stassi G, De Maria R, Trucco G. et al . Nitric oxide primes pancreatic β cells for Fas-mediated destruction in insulin-dependent diabetes mellitus.  J Exp Med. 1997;  186 1193-1200
    Google Scholar
  • 21 Storling J, Binzer J, Andersson AK. et al . Nitric oxide contributes to cytokine-induced apoptosis in pancreatic β cells via potentiation of JNK activity and inhibition of Akt.  Diabetologia. 2005;  48 2039-2050
    Google Scholar
  • 22 Darville MI, Eizirik DL. Regulation by cytokines of the inducible nitric oxide synthase promoter in insulin-producing cells.  Diabetologia. 1998;  41 1101-1108
    Google Scholar
  • 23 Nakashima H, Nakamura M, Yamaguchi H. et al . Nuclear factor-κB contributes to hedgehog signaling pathway activation through sonic hedgehog induction in pancreatic cancer.  Cancer Res. 2006;  66 7041-7049
    Google Scholar
  • 24 Ortis F, Pirot P, Naamane N. et al . Induction of nuclear factor-κB and its downstream genes by TNF-α and IL-1β has a pro-apoptotic role in pancreatic beta cells.  Diabetologia. 2008;  51 1213-1225
    Google Scholar
  • 25 Spiecker M, Lorenz I, Marx N. et al . Tranilast inhibits cytokine-induced nuclear factor κB activation in vascular endothelial cells.  Mol Pharmacol. 2002;  62 856-863
    Google Scholar
  • 26 Cetkovic-Cvrlje M, Eizirik DL. TNF-α and IFN-γ potentiate the deleterious effects of IL-1 β on mouse pancreatic islets mainly via generation of nitric oxide.  Cytokine. 1994;  6 399-406
    Google Scholar
  • 27 Comens PG, Wolf BA, Unanue ER. et al . Interleukin 1 is potent modulator of insulin secretion from isolated rat islets of Langerhans.  Diabetes. 1987;  36 963-970
    Google Scholar
  • 28 Corbett JA, Wang JL, Sweetland MA. et al . Interleukin 1 β induces the formation of nitric oxide by β-cells purified from rodent islets of Langerhans. Evidence for the β-cell as a source and site of action of nitric oxide.  J Clin Invest. 1992;  90 2384-2391
    Google Scholar

Correspondence

N. Ozaki

Department of Endocrinology

and Diabetes

Field of Internal Medicine

Nagoya University Graduate

School of Medicine

Tsuruma-cho Showa-ku65

466-8550 Nagoya

Japan

Phone: +81/52/744 2142

Fax: +81/52/744 2212

Email: n-ozaki@med.nagoya-u.ac.jp

      >