Functional Genomic Screening During Somatic Cell Reprogramming Identifies DKK3 as a Roadblock of Organ Regeneration

Frank Arnold; Pallavi U. Mahaddalkar; Johann M. Kraus; Xiaowei Zhong; Wendy Bergmann; Dharini Srinivasan; Johann Gout; Elodie Roger; Alica K. Beutel; Eugen Zizer; Umesh Tharehalli; Nora Daiss; Ronan Russell; Lukas Perkhofer; Rupert Oellinger; Qiong Lin; Ninel Azoitei; Frank Ulrich Weiss; Markus M. Lerch; Stefan Liebau; Sarah Fee Katz; André Lechel; Roland Rad; Thomas Seufferlein; Hans A. Kestler; Michael Ott; Amar Deep Sharma; Patrick C. Hermann; Alexander Kleger

doi:10.1002/advs.202100626

Functional Genomic Screening During Somatic Cell Reprogramming Identifies DKK3 as a Roadblock of Organ Regeneration

Frank Arnold
, Pallavi U. Mahaddalkar
, Johann M. Kraus
, Xiaowei Zhong
, Wendy Bergmann
, Dharini Srinivasan
, Johann Gout
, Elodie Roger
, Alica K. Beutel
, Eugen Zizer
, Umesh Tharehalli
, Nora Daiss
, Ronan Russell
, Lukas Perkhofer
, Rupert Oellinger
, Qiong Lin
, Ninel Azoitei
, Frank Ulrich Weiss
, Markus M. Lerch
, Stefan Liebau

Sarah Fee Katz, André Lechel, Roland Rad, Thomas Seufferlein, Hans A. Kestler, Michael Ott, Amar Deep Sharma, Patrick C. Hermann, Alexander Kleger

Molecular Oncology and Functional Genomics

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

Somatic cell reprogramming and tissue repair share relevant factors and molecular programs. Here, Dickkopf-3 (DKK3) is identified as novel factor for organ regeneration using combined transcription-factor-induced reprogramming and RNA-interference techniques. Loss of Dkk3 enhances the generation of induced pluripotent stem cells but does not affect de novo derivation of embryonic stem cells, three-germ-layer differentiation or colony formation capacity of liver and pancreatic organoids. However, DKK3 expression levels in wildtype animals and serum levels in human patients are elevated upon injury. Accordingly, Dkk3-null mice display less liver damage upon acute and chronic failure mediated by increased proliferation in hepatocytes and LGR5⁺ liver progenitor cell population, respectively. Similarly, recovery from experimental pancreatitis is accelerated. Regeneration onset occurs in the acinar compartment accompanied by virtually abolished canonical-Wnt-signaling in Dkk3-null animals. This results in reduced expression of the Hedgehog repressor Gli3 and increased Hedgehog-signaling activity upon Dkk3 loss. Collectively, these data reveal Dkk3 as a key regulator of organ regeneration via a direct, previously unacknowledged link between DKK3, canonical-Wnt-, and Hedgehog-signaling.

Original language	English
Article number	2100626
Journal	Advanced Science
Volume	8
Issue number	14
DOIs	https://doi.org/10.1002/advs.202100626
State	Published - 21 Jul 2021

Keywords

Wnt-/Hedgehog-signaling
functional shRNA screen
regeneration
reprogramming

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10.1002/advs.202100626

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Arnold, F., Mahaddalkar, P. U., Kraus, J. M., Zhong, X., Bergmann, W., Srinivasan, D., Gout, J., Roger, E., Beutel, A. K., Zizer, E., Tharehalli, U., Daiss, N., Russell, R., Perkhofer, L., Oellinger, R., Lin, Q., Azoitei, N., Weiss, F. U., Lerch, M. M., ... Kleger, A. (2021). Functional Genomic Screening During Somatic Cell Reprogramming Identifies DKK3 as a Roadblock of Organ Regeneration. Advanced Science, 8(14), Article 2100626. https://doi.org/10.1002/advs.202100626

@article{33a0782d8c3746869bd1691fd69a58db,

title = "Functional Genomic Screening During Somatic Cell Reprogramming Identifies DKK3 as a Roadblock of Organ Regeneration",

abstract = "Somatic cell reprogramming and tissue repair share relevant factors and molecular programs. Here, Dickkopf-3 (DKK3) is identified as novel factor for organ regeneration using combined transcription-factor-induced reprogramming and RNA-interference techniques. Loss of Dkk3 enhances the generation of induced pluripotent stem cells but does not affect de novo derivation of embryonic stem cells, three-germ-layer differentiation or colony formation capacity of liver and pancreatic organoids. However, DKK3 expression levels in wildtype animals and serum levels in human patients are elevated upon injury. Accordingly, Dkk3-null mice display less liver damage upon acute and chronic failure mediated by increased proliferation in hepatocytes and LGR5+ liver progenitor cell population, respectively. Similarly, recovery from experimental pancreatitis is accelerated. Regeneration onset occurs in the acinar compartment accompanied by virtually abolished canonical-Wnt-signaling in Dkk3-null animals. This results in reduced expression of the Hedgehog repressor Gli3 and increased Hedgehog-signaling activity upon Dkk3 loss. Collectively, these data reveal Dkk3 as a key regulator of organ regeneration via a direct, previously unacknowledged link between DKK3, canonical-Wnt-, and Hedgehog-signaling.",

keywords = "Wnt-/Hedgehog-signaling, functional shRNA screen, regeneration, reprogramming",

author = "Frank Arnold and Mahaddalkar, \{Pallavi U.\} and Kraus, \{Johann M.\} and Xiaowei Zhong and Wendy Bergmann and Dharini Srinivasan and Johann Gout and Elodie Roger and Beutel, \{Alica K.\} and Eugen Zizer and Umesh Tharehalli and Nora Daiss and Ronan Russell and Lukas Perkhofer and Rupert Oellinger and Qiong Lin and Ninel Azoitei and Weiss, \{Frank Ulrich\} and Lerch, \{Markus M.\} and Stefan Liebau and Katz, \{Sarah Fee\} and Andr{\'e} Lechel and Roland Rad and Thomas Seufferlein and Kestler, \{Hans A.\} and Michael Ott and Sharma, \{Amar Deep\} and Hermann, \{Patrick C.\} and Alexander Kleger",

note = "Publisher Copyright: {\textcopyright} 2021 The Authors. Advanced Science published by Wiley-VCH GmbH",

year = "2021",

month = jul,

day = "21",

doi = "10.1002/advs.202100626",

language = "English",

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Arnold, F, Mahaddalkar, PU, Kraus, JM, Zhong, X, Bergmann, W, Srinivasan, D, Gout, J, Roger, E, Beutel, AK, Zizer, E, Tharehalli, U, Daiss, N, Russell, R, Perkhofer, L, Oellinger, R, Lin, Q, Azoitei, N, Weiss, FU, Lerch, MM, Liebau, S, Katz, SF, Lechel, A, Rad, R, Seufferlein, T, Kestler, HA, Ott, M, Sharma, AD, Hermann, PC & Kleger, A 2021, 'Functional Genomic Screening During Somatic Cell Reprogramming Identifies DKK3 as a Roadblock of Organ Regeneration', Advanced Science, vol. 8, no. 14, 2100626. https://doi.org/10.1002/advs.202100626

TY - JOUR

T1 - Functional Genomic Screening During Somatic Cell Reprogramming Identifies DKK3 as a Roadblock of Organ Regeneration

AU - Arnold, Frank

AU - Mahaddalkar, Pallavi U.

AU - Kraus, Johann M.

AU - Zhong, Xiaowei

AU - Bergmann, Wendy

AU - Srinivasan, Dharini

AU - Gout, Johann

AU - Roger, Elodie

AU - Beutel, Alica K.

AU - Zizer, Eugen

AU - Tharehalli, Umesh

AU - Daiss, Nora

AU - Russell, Ronan

AU - Perkhofer, Lukas

AU - Oellinger, Rupert

AU - Lin, Qiong

AU - Azoitei, Ninel

AU - Weiss, Frank Ulrich

AU - Lerch, Markus M.

AU - Liebau, Stefan

AU - Katz, Sarah Fee

AU - Lechel, André

AU - Rad, Roland

AU - Seufferlein, Thomas

AU - Kestler, Hans A.

AU - Ott, Michael

AU - Sharma, Amar Deep

AU - Hermann, Patrick C.

AU - Kleger, Alexander

PY - 2021/7/21

Y1 - 2021/7/21

N2 - Somatic cell reprogramming and tissue repair share relevant factors and molecular programs. Here, Dickkopf-3 (DKK3) is identified as novel factor for organ regeneration using combined transcription-factor-induced reprogramming and RNA-interference techniques. Loss of Dkk3 enhances the generation of induced pluripotent stem cells but does not affect de novo derivation of embryonic stem cells, three-germ-layer differentiation or colony formation capacity of liver and pancreatic organoids. However, DKK3 expression levels in wildtype animals and serum levels in human patients are elevated upon injury. Accordingly, Dkk3-null mice display less liver damage upon acute and chronic failure mediated by increased proliferation in hepatocytes and LGR5+ liver progenitor cell population, respectively. Similarly, recovery from experimental pancreatitis is accelerated. Regeneration onset occurs in the acinar compartment accompanied by virtually abolished canonical-Wnt-signaling in Dkk3-null animals. This results in reduced expression of the Hedgehog repressor Gli3 and increased Hedgehog-signaling activity upon Dkk3 loss. Collectively, these data reveal Dkk3 as a key regulator of organ regeneration via a direct, previously unacknowledged link between DKK3, canonical-Wnt-, and Hedgehog-signaling.

AB - Somatic cell reprogramming and tissue repair share relevant factors and molecular programs. Here, Dickkopf-3 (DKK3) is identified as novel factor for organ regeneration using combined transcription-factor-induced reprogramming and RNA-interference techniques. Loss of Dkk3 enhances the generation of induced pluripotent stem cells but does not affect de novo derivation of embryonic stem cells, three-germ-layer differentiation or colony formation capacity of liver and pancreatic organoids. However, DKK3 expression levels in wildtype animals and serum levels in human patients are elevated upon injury. Accordingly, Dkk3-null mice display less liver damage upon acute and chronic failure mediated by increased proliferation in hepatocytes and LGR5+ liver progenitor cell population, respectively. Similarly, recovery from experimental pancreatitis is accelerated. Regeneration onset occurs in the acinar compartment accompanied by virtually abolished canonical-Wnt-signaling in Dkk3-null animals. This results in reduced expression of the Hedgehog repressor Gli3 and increased Hedgehog-signaling activity upon Dkk3 loss. Collectively, these data reveal Dkk3 as a key regulator of organ regeneration via a direct, previously unacknowledged link between DKK3, canonical-Wnt-, and Hedgehog-signaling.

KW - Wnt-/Hedgehog-signaling

KW - functional shRNA screen

KW - regeneration

KW - reprogramming

UR - https://www.scopus.com/pages/publications/85105727487

U2 - 10.1002/advs.202100626

DO - 10.1002/advs.202100626

M3 - Article

C2 - 34306986

AN - SCOPUS:85105727487

SN - 2198-3844

VL - 8

JO - Advanced Science

JF - Advanced Science

IS - 14

M1 - 2100626

ER -

Functional Genomic Screening During Somatic Cell Reprogramming Identifies DKK3 as a Roadblock of Organ Regeneration

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Keywords

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