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Abstract

Proper identification of pancreatic ducts is a major challenge for researchers performing partial duct ligation (PDL), because pancreatic ducts, which are covered with acinar cells, are translucent and thin. Although damage to pancreatic ducts may activate quiescent ductal stem cells, which may allow further investigation into ductal stem cells for therapeutic use, there is a lack of effective techniques to visualize pancreatic ducts. In this study, we report a new method for identifying pancreatic ducts. First, we aimed to visualize pancreatic ducts using black, waterproof fountain pen ink. We injected the ink into pancreatic ducts through the bile duct. The flow of ink was observed in pancreatic ducts, revealing their precise architecture. Next, to visualize pancreatic ducts in live animals, we injected fluorescein-labeled bile acid, cholyl-lysyl-fluorescein into the mouse tail vein. The fluorescent probe clearly marked not only the bile duct but also pancreatic ducts when observed with a fluorescent microscope. To confirm whether the pancreatic duct labeling was successful, we performed PDL on Neurogenin3 (Ngn3)-GFP transgenic mice. As a result, acinar tissue is lost. PDL tail pancreas becomes translucent almost completely devoid of acinar cells. Furthermore, strong activation of Ngn3 expression was observed in the ligated part of the adult mouse pancreas at 7 days after PDL.

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References

World Health Organization. Global Report on Diabetes. WHO Press, 2016.

Barton

F.B.

, Rickels

M.R.

, Alejandro

, et al. Improvement in outcomes of clinical islet transplantation: 1999-2010. Diabetes Care, 35, 1436, 2012.

Lakey

J.R.

, Mirbolooki

, and Shapiro

A.M.

Current status of clinical islet cell transplantation. Methods Mol Biol, 333, 47, 2006.

Granger

, and Kushner

J.A.

Cellular origins of beta cell regeneration: a legacy view of historical controversies. J Intern Med, 266, 325, 2009.

Bonner-Weir

, Baxter

L.A.

, Schuppin

G.T.

, and Smith

F.E.

A second pathway for regeneration of adult exocrine and endocrine pancreas. A possible recapitulation of embryonic development. Diabetes, 42, 1715, 1993.

Inada

, Nienaber

, Katsuta

, et al. Carbonic anhydrase II-positive pancreatic cells are progenitors for both endocrine and exocrine pancreas after birth. Proc Natl Acad Sci U S A, 105, 19915, 2008.

Dor

, Brown

, Martinez

O.I.

, and Melton

D.A.

Adult pancreatic beta cells are formed by self-duplication rather than stem-cell differentiation. Nature, 429, 41, 2004.

Houbracken

, De Waele

, Lardon

, et al. Lineage tracing evidence for transdifferentiation of acinar to duct cells and plasticity of human pancreas. Gastroenterology, 141, 731, 2011.

Teta

, Rankin

M.M.

, Long

S.Y.

, Stein

G.M.

, and Kushner

J.A.

Growth and regeneration of adult beta cells does not involve specialized progenitors. Dev Cell, 12, 817, 2007.

10.

Brennand

, Huangfu

, and Melton

All beta cells contribute equally to islet growth and maintenance. PLoS Biol, 5, e163, 2007.

11.

Van de Casteele

, Leuckx

, Cai

, et al. Partial duct ligation: beta-cell proliferation and beyond. Diabetes, 63, 2567, 2014.

12.

Huch

, Bonfanti

, Boj

S.F.

, et al. Unlimited in vitro expansion of adult bi-potent pancreas progenitors through the Lgr5/R-spondin axis. EMBO J, 32, 2708, 2013.

13.

, D'Hoker

, Stangē

, et al. Beta cells can be generated from endogenous progenitors in injured adult mouse pancreas. Cell, 132, 197, 2008.

14.

Wang

R.N.

, Klōppel

, and Bouwens

Duct to islet cell differentiation and islet growth in the pancreas of duct-ligated adult rats. Diabetologia, 38, 1405, 1995.

15.

Criscimanna

, Speicher

J.A.

, Houshmand

, et al. Duct cells contribute to regeneration of endocrine and acinar cells following pancreatic damage in adult mice. Gastroenterology, 141, 1451, 2011.

16.

Pan

F.C.

, Bankaitis

E.D.

, Boyer

, et al. Spatiotemporal patterns of multipotentiality in Ptf1a-expressing cells during pancreas organogenesis and injury-induced facultative restoration. Development, 140, 751, 2013.

17.

Van de Casteele

, Leuckx

, Baeyens

, et al. Neurogenin 3+ cells contribute to beta cell neogenesis and proliferation in injured adult mouse pancreas. Cell Death Dis, 4, e523, 2013.

18.

Kopp

J.L.

, Dubois

C.L.

, Schaffer

A.E.

, et al. Sox9+ ductal cells are multipotent progenitors throughout development but do not produce new endocrine cells in the normal or injured adult pancreas. Development, 138, 653, 2011.

19.

Chintinne

, Stangé

, Denys

, Ling

, In ’t Veld

, and Pipeleers

Beta cell count instead of beta cell mass to assess and localize growth in beta cell population following pancreatic duct ligation in mice. PLoS One, 7, e43959, 2012.

20.

Rankin

M.M.

, Wilbur

C.J.

, Rak

, Shields

E.J.

, Granger

, and Kushner

J.A.

Beta cells are not generated in pancreatic duct ligation-induced injury in adult mice. Diabetes, 62, 1634, 2013.

21.

De Groef

, Leuckx

, Van Gassen

, et al. Surgical injury to the mouse pancreas through ligation of the pancreatic duct as a model for endocrine and exocrine reprogramming and proliferation. J Vis Exp, 102, e52765, 2015.

22.

Guo

, Xiao

, El-Gohary

, et al. Specific transduction and labeling of pancreatic ducts by targeted recombinant viral infusion into mouse pancreatic ducts. Lab Invest, 93, 1241, 2013.

23.

, Dubauskaite

, and Melton

D.A.

Direct evidence for the pancreatic lineage: Ngn3+ cells are islet progenitors and are distinct from duct progenitors. Development, 129, 2447, 2002.

24.

Gradwohl

, Dierich

, LeMeur

, and Guillemot

Neurogenin3 is required for the development of the four endocrine cell lineages of the pancreas. Proc Natl Acad Sci U S A, 97, 1607, 2000.

25.

Schwitzgebel

V.M.

, Scheel

D.W.

, Conners

J.R.

, et al. Expression of neurogenin3 reveals an islet cell precursor population in the pancreas. Development, 127, 3533, 2000.

26.

Jiang

F.X.

, Li

, Archer

, et al. Differentiation of islet progenitors regulated by nicotinamide into transcriptome-verified beta cells that ameliorate diabetes. Stem Cells, 35, 1341, 2017.

27.

Kaneko

, Kamimoto

, MIyajima

, and Itoh

Adaptive remodeling of the biliary architecture underlies river homeostasis. Hepatology, 61, 2056, 2015.

28.

Milkiewicz

, Saksena

, Cardenas

, Mills

C.O.

, and Elias

Plasma elimination of cholyl-lysyl-fluorescein (CLF): a pilot study in patients with liver cirrhosis. Liver, 20, 330, 2000.

29.

Dirk

R.W.

, Stephanie

, Maria

L.V.

, et al. Hepatic transport mechanisms of cholyl-L-lysyl-fluorescein. J Pharmacol Exp Ther, 334, 78, 2010.

30.

Tanimizu

, Nishikawa

, Saito

, Tsujimura

, and Miyajima

Isolation of hepatoblasts based on the expression of Dlk/Pref-1. J Cell Sci, 116, 1775, 2003.

31.

Jenny

, Uhl

, Roche

, et al. Neurogenin3 is differentially required for endocrine cell fate specification in the intestinal and gastric epithelium. EMBO J, 21, 6338, 2002.

32.

Solar

, Cardalda

, Houbracken

, et al. Pancreatic exocrine duct cells give rise to insulin-producing beta cells during embryogenesis but not after birth. Dev Cell, 17, 849, 2009.

33.

Taylor

B.L.

, Liu

F.F.

, and Sander

Nkx6.1 is essential for maintaining the functional state of pancreatic beta cells. Cell Rep, 4, 1262, 2013.

34.

Nishimura

, Kondo

, Salameh

, et al. A switch from MafB to MafA expression accompanies differentiation to pancreatic beta cells. Dev Biol, 293, 526, 2006.

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A Method for Identifying Mouse Pancreatic Ducts

Abstract

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