Cdk5 drives formation of heterogeneous pancreatic neuroendocrine tumors

Angela M. Carter; Nilesh Kumar; Brendon Herring; Chunfeng Tan; Rachael Guenter; Rahul Telange; Wayne Howse; Fabrice Viol; Tyler R. McCaw; Hayden H. Bickerton; Priyanka Gupta; Frank Gillardon; Eugene A. Woltering; Deepti Dhall; John Totenhagen; Ronadip R. Banerjee; Elizabeth M. Kurian; Sushanth Reddy; Herbert Chen; Joerg Schrader; J. Bart Rose; M. Shahid Mukhtar; James A. Bibb

doi:10.1038/s41389-021-00372-5

Cdk5 drives formation of heterogeneous pancreatic neuroendocrine tumors

Angela M. Carter, Nilesh Kumar, Brendon Herring, Chunfeng Tan, Rachael Guenter, Rahul Telange, Wayne Howse, Fabrice Viol, Tyler R. McCaw, Hayden H. Bickerton, Priyanka Gupta, Frank Gillardon, Eugene A. Woltering, Deepti Dhall, John Totenhagen, Ronadip R. Banerjee, Elizabeth M. Kurian, Sushanth Reddy, Herbert Chen, Joerg SchraderJ. Bart Rose, M. Shahid Mukhtar, James A. Bibb

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

5 Scopus citations

Abstract

Pancreatic neuroendocrine tumors (PanNETs) are a heterogeneous population of neoplasms that arise from hormone-secreting islet cells of the pancreas and have increased markedly in incidence over the past four decades. Non-functional PanNETs, which occur more frequently than hormone-secreting tumors, are often not diagnosed until later stages of tumor development and have poorer prognoses. Development of successful therapeutics for PanNETs has been slow, partially due to a lack of diverse animal models for pre-clinical testing. Here, we report development of an inducible, conditional mouse model of PanNETs by using a bi-transgenic system for regulated expression of the aberrant activator of Cdk5, p25, specifically in β-islet cells. This model produces a heterogeneous population of PanNETs that includes a subgroup of well-differentiated, non-functional tumors. Production of these tumors demonstrates the causative potential of aberrantly active Cdk5 for generation of PanNETs. Further, we show that human PanNETs express Cdk5 pathway components, are dependent on Cdk5 for growth, and share genetic and transcriptional overlap with the INS-p25OE model. The utility of this model is enhanced by the ability to form tumor-derived allografts. This new model of PanNETs will facilitate molecular delineation of Cdk5-dependent PanNETs and the development of new targeted therapeutics.

Original language	English (US)
Article number	83
Journal	Oncogenesis
Volume	10
Issue number	12
DOIs	https://doi.org/10.1038/s41389-021-00372-5
State	Published - Dec 2021

ASJC Scopus subject areas

Molecular Biology
Cancer Research

Access to Document

10.1038/s41389-021-00372-5

Cite this

Carter, A. M., Kumar, N., Herring, B., Tan, C., Guenter, R., Telange, R., Howse, W., Viol, F., McCaw, T. R., Bickerton, H. H., Gupta, P., Gillardon, F., Woltering, E. A., Dhall, D., Totenhagen, J., Banerjee, R. R., Kurian, E. M., Reddy, S., Chen, H., ... Bibb, J. A. (2021). Cdk5 drives formation of heterogeneous pancreatic neuroendocrine tumors. Oncogenesis, 10(12), [83]. https://doi.org/10.1038/s41389-021-00372-5

Carter, AM, Kumar, N, Herring, B, Tan, C, Guenter, R, Telange, R, Howse, W, Viol, F, McCaw, TR, Bickerton, HH, Gupta, P, Gillardon, F, Woltering, EA, Dhall, D, Totenhagen, J, Banerjee, RR, Kurian, EM, Reddy, S, Chen, H, Schrader, J, Bart Rose, J, Mukhtar, MS & Bibb, JA 2021, 'Cdk5 drives formation of heterogeneous pancreatic neuroendocrine tumors', Oncogenesis, vol. 10, no. 12, 83. https://doi.org/10.1038/s41389-021-00372-5

@article{1953e2090df34dc9885333ee8759a6f5,

title = "Cdk5 drives formation of heterogeneous pancreatic neuroendocrine tumors",

abstract = "Pancreatic neuroendocrine tumors (PanNETs) are a heterogeneous population of neoplasms that arise from hormone-secreting islet cells of the pancreas and have increased markedly in incidence over the past four decades. Non-functional PanNETs, which occur more frequently than hormone-secreting tumors, are often not diagnosed until later stages of tumor development and have poorer prognoses. Development of successful therapeutics for PanNETs has been slow, partially due to a lack of diverse animal models for pre-clinical testing. Here, we report development of an inducible, conditional mouse model of PanNETs by using a bi-transgenic system for regulated expression of the aberrant activator of Cdk5, p25, specifically in β-islet cells. This model produces a heterogeneous population of PanNETs that includes a subgroup of well-differentiated, non-functional tumors. Production of these tumors demonstrates the causative potential of aberrantly active Cdk5 for generation of PanNETs. Further, we show that human PanNETs express Cdk5 pathway components, are dependent on Cdk5 for growth, and share genetic and transcriptional overlap with the INS-p25OE model. The utility of this model is enhanced by the ability to form tumor-derived allografts. This new model of PanNETs will facilitate molecular delineation of Cdk5-dependent PanNETs and the development of new targeted therapeutics.",

author = "Carter, {Angela M.} and Nilesh Kumar and Brendon Herring and Chunfeng Tan and Rachael Guenter and Rahul Telange and Wayne Howse and Fabrice Viol and McCaw, {Tyler R.} and Bickerton, {Hayden H.} and Priyanka Gupta and Frank Gillardon and Woltering, {Eugene A.} and Deepti Dhall and John Totenhagen and Banerjee, {Ronadip R.} and Kurian, {Elizabeth M.} and Sushanth Reddy and Herbert Chen and Joerg Schrader and {Bart Rose}, J. and Mukhtar, {M. Shahid} and Bibb, {James A.}",

note = "Funding Information: This work was supported by an American Cancer Society Postdoctoral Fellowship (AMC); an American Cancer Society Research Scholars Award (JAB); a Robert E. Reed Foundation grant (HC); NIH award K08CA234209 (JBR); NIH awards P30CA013148 and S10 OD028498-01 (UAB Preclinical Imaging Shared Facility); and NCI award P30CA013148 (UAB O{\textquoteright}Neal Comprehensive Cancer Center). A portion of effort for this project was facilitated by an SDHB Pheo Para Coalition Investigator Award and NIH awards DA033485-01, MH083711-01, NS073855-01, and R56MH116896 (JAB). JAB is the recipient of an NETRF Accelerator award. Funding Information: Ins2-rtTA mice were kindly provided by Dr. Alvin C. Powers (Vanderbilt University). PanNETs from the MEN+/− mouse model (18–22 months old mice) were kindly provided by Vaishali Parekh of Dr. Sunita K. Agarwal{\textquoteright}s lab (NIH/NIDDK). Human PDAC cell lines were kindly provided by Upender Manne. We thank the Pathology Core at UAB for TMA production, the UAB Small Animal Imaging Facility for MRI on mice, and the Heflin Center for Genomic Science at UAB for WES and RNAseq. We thank Boehringer-Ingelheim and Frank Gillardon for providing Indo A. This research was further supported by core capabilities provided by the O{\textquoteright}Neal Comprehensive Cancer Center. Publisher Copyright: {\textcopyright} 2021, The Author(s).",

year = "2021",

month = dec,

doi = "10.1038/s41389-021-00372-5",

language = "English (US)",

volume = "10",

journal = "Oncogenesis",

issn = "2157-9024",

publisher = "Nature Publishing Group",

number = "12",

}

TY - JOUR

T1 - Cdk5 drives formation of heterogeneous pancreatic neuroendocrine tumors

AU - Carter, Angela M.

AU - Kumar, Nilesh

AU - Herring, Brendon

AU - Tan, Chunfeng

AU - Guenter, Rachael

AU - Telange, Rahul

AU - Howse, Wayne

AU - Viol, Fabrice

AU - McCaw, Tyler R.

AU - Bickerton, Hayden H.

AU - Gupta, Priyanka

AU - Gillardon, Frank

AU - Woltering, Eugene A.

AU - Dhall, Deepti

AU - Totenhagen, John

AU - Banerjee, Ronadip R.

AU - Kurian, Elizabeth M.

AU - Reddy, Sushanth

AU - Chen, Herbert

AU - Schrader, Joerg

AU - Bart Rose, J.

AU - Mukhtar, M. Shahid

AU - Bibb, James A.

N1 - Funding Information: This work was supported by an American Cancer Society Postdoctoral Fellowship (AMC); an American Cancer Society Research Scholars Award (JAB); a Robert E. Reed Foundation grant (HC); NIH award K08CA234209 (JBR); NIH awards P30CA013148 and S10 OD028498-01 (UAB Preclinical Imaging Shared Facility); and NCI award P30CA013148 (UAB O’Neal Comprehensive Cancer Center). A portion of effort for this project was facilitated by an SDHB Pheo Para Coalition Investigator Award and NIH awards DA033485-01, MH083711-01, NS073855-01, and R56MH116896 (JAB). JAB is the recipient of an NETRF Accelerator award. Funding Information: Ins2-rtTA mice were kindly provided by Dr. Alvin C. Powers (Vanderbilt University). PanNETs from the MEN+/− mouse model (18–22 months old mice) were kindly provided by Vaishali Parekh of Dr. Sunita K. Agarwal’s lab (NIH/NIDDK). Human PDAC cell lines were kindly provided by Upender Manne. We thank the Pathology Core at UAB for TMA production, the UAB Small Animal Imaging Facility for MRI on mice, and the Heflin Center for Genomic Science at UAB for WES and RNAseq. We thank Boehringer-Ingelheim and Frank Gillardon for providing Indo A. This research was further supported by core capabilities provided by the O’Neal Comprehensive Cancer Center. Publisher Copyright: © 2021, The Author(s).

PY - 2021/12

Y1 - 2021/12

N2 - Pancreatic neuroendocrine tumors (PanNETs) are a heterogeneous population of neoplasms that arise from hormone-secreting islet cells of the pancreas and have increased markedly in incidence over the past four decades. Non-functional PanNETs, which occur more frequently than hormone-secreting tumors, are often not diagnosed until later stages of tumor development and have poorer prognoses. Development of successful therapeutics for PanNETs has been slow, partially due to a lack of diverse animal models for pre-clinical testing. Here, we report development of an inducible, conditional mouse model of PanNETs by using a bi-transgenic system for regulated expression of the aberrant activator of Cdk5, p25, specifically in β-islet cells. This model produces a heterogeneous population of PanNETs that includes a subgroup of well-differentiated, non-functional tumors. Production of these tumors demonstrates the causative potential of aberrantly active Cdk5 for generation of PanNETs. Further, we show that human PanNETs express Cdk5 pathway components, are dependent on Cdk5 for growth, and share genetic and transcriptional overlap with the INS-p25OE model. The utility of this model is enhanced by the ability to form tumor-derived allografts. This new model of PanNETs will facilitate molecular delineation of Cdk5-dependent PanNETs and the development of new targeted therapeutics.

AB - Pancreatic neuroendocrine tumors (PanNETs) are a heterogeneous population of neoplasms that arise from hormone-secreting islet cells of the pancreas and have increased markedly in incidence over the past four decades. Non-functional PanNETs, which occur more frequently than hormone-secreting tumors, are often not diagnosed until later stages of tumor development and have poorer prognoses. Development of successful therapeutics for PanNETs has been slow, partially due to a lack of diverse animal models for pre-clinical testing. Here, we report development of an inducible, conditional mouse model of PanNETs by using a bi-transgenic system for regulated expression of the aberrant activator of Cdk5, p25, specifically in β-islet cells. This model produces a heterogeneous population of PanNETs that includes a subgroup of well-differentiated, non-functional tumors. Production of these tumors demonstrates the causative potential of aberrantly active Cdk5 for generation of PanNETs. Further, we show that human PanNETs express Cdk5 pathway components, are dependent on Cdk5 for growth, and share genetic and transcriptional overlap with the INS-p25OE model. The utility of this model is enhanced by the ability to form tumor-derived allografts. This new model of PanNETs will facilitate molecular delineation of Cdk5-dependent PanNETs and the development of new targeted therapeutics.

UR - http://www.scopus.com/inward/record.url?scp=85120849771&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85120849771&partnerID=8YFLogxK

U2 - 10.1038/s41389-021-00372-5

DO - 10.1038/s41389-021-00372-5

M3 - Article

C2 - 34862365

AN - SCOPUS:85120849771

SN - 2157-9024

VL - 10

JO - Oncogenesis

JF - Oncogenesis

IS - 12

M1 - 83

ER -

Cdk5 drives formation of heterogeneous pancreatic neuroendocrine tumors

Abstract

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this