Sea turtle fibropapilloma tumors share genomic drivers and therapeutic vulnerabilities with human cancers

David J. Duffy; Christine Schnitzler; Lorraine Karpinski; Rachel Thomas; Jenny Whilde; Catherine Eastman; Calvin Yang; Aleksandar Krstic; Devon Rollinson; Bette Zirkelbach; Kesey Yetsko; Brooke Burkhalter; Mark Q, Martindale

doi:10.1038/s42003-018-0059-x

Sea turtle fibropapilloma tumors share genomic drivers and therapeutic vulnerabilities with human cancers

David J. Duffy
, Christine Schnitzler
, Lorraine Karpinski
, Rachel Thomas
, Jenny Whilde
, Catherine Eastman
, Calvin Yang
, Aleksandar Krstic
, Devon Rollinson
, Bette Zirkelbach
, Kesey Yetsko
, Brooke Burkhalter
, Mark Q, Martindale

University of Florida, Gainesville
Pinecrest Veterinary Hospital
University of Florida
Turtle Hospital, 2396 Overseas Highway, Marathon, FL
University College Dublin

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

207 Downloads (Pure)

Abstract

Wildlife populations are under intense anthropogenic pressures, with the geographic range of many species shrinking, dramatic reductions in population numbers and undisturbed habitats, and biodiversity loss. It is postulated that we are in the midst of a sixth (Anthropocene) mass extinction event, the first to be induced by human activity. Further, threatening vulnerable species is the increased rate of emerging diseases, another consequence of anthropogenic activities. Innovative approaches are required to help maintain healthy populations until the chronic underlying causes of these issues can be addressed. Fibropapillomatosis in sea turtles is one such wildlife disease. Here, we applied precision-medicine-based approaches to profile fibropapillomatosis tumors to better understand their biology, identify novel therapeutics, and gain insights into viral and environmental triggers for fibropapillomatosis. We show that fibropapillomatosis tumors share genetic vulnerabilities with human cancer types, revealing that they are amenable to treatment with human anti-cancer therapeutics

Original language	English
Article number	63
Journal	Communications Biology
Volume	1
DOIs	https://doi.org/10.1038/s42003-018-0059-x
Publication status	Published - 7 Jun 2018

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Access to Document

10.1038/s42003-018-0059-xLicence: CC BY

s42003-018-0059-xFinal published version, 1.51 MBLicence: CC BY

Cite this

Duffy, D. J., Schnitzler, C., Karpinski, L., Thomas, R., Whilde, J., Eastman, C., Yang, C., Krstic, A., Rollinson, D., Zirkelbach, B., Yetsko, K., Burkhalter, B., & Martindale, M. Q. (2018). Sea turtle fibropapilloma tumors share genomic drivers and therapeutic vulnerabilities with human cancers. Communications Biology, 1, Article 63. https://doi.org/10.1038/s42003-018-0059-x

@article{4eea58250dcc434cbdf52195d18da233,

title = "Sea turtle fibropapilloma tumors share genomic drivers and therapeutic vulnerabilities with human cancers",

abstract = "Wildlife populations are under intense anthropogenic pressures, with the geographic range of many species shrinking, dramatic reductions in population numbers and undisturbed habitats, and biodiversity loss. It is postulated that we are in the midst of a sixth (Anthropocene) mass extinction event, the first to be induced by human activity. Further, threatening vulnerable species is the increased rate of emerging diseases, another consequence of anthropogenic activities. Innovative approaches are required to help maintain healthy populations until the chronic underlying causes of these issues can be addressed. Fibropapillomatosis in sea turtles is one such wildlife disease. Here, we applied precision-medicine-based approaches to profile fibropapillomatosis tumors to better understand their biology, identify novel therapeutics, and gain insights into viral and environmental triggers for fibropapillomatosis. We show that fibropapillomatosis tumors share genetic vulnerabilities with human cancer types, revealing that they are amenable to treatment with human anti-cancer therapeutics",

author = "Duffy, \{David J.\} and Christine Schnitzler and Lorraine Karpinski and Rachel Thomas and Jenny Whilde and Catherine Eastman and Calvin Yang and Aleksandar Krstic and Devon Rollinson and Bette Zirkelbach and Kesey Yetsko and Brooke Burkhalter and Martindale, \{Mark Q,\}",

year = "2018",

month = jun,

day = "7",

doi = "10.1038/s42003-018-0059-x",

language = "English",

volume = "1",

journal = "Communications Biology",

issn = "2399-3642",

publisher = "Springer Nature",

}

TY - JOUR

T1 - Sea turtle fibropapilloma tumors share genomic drivers and therapeutic vulnerabilities with human cancers

AU - Duffy, David J.

AU - Schnitzler, Christine

AU - Karpinski, Lorraine

AU - Thomas, Rachel

AU - Whilde, Jenny

AU - Eastman, Catherine

AU - Yang, Calvin

AU - Krstic, Aleksandar

AU - Rollinson, Devon

AU - Zirkelbach, Bette

AU - Yetsko, Kesey

AU - Burkhalter, Brooke

AU - Martindale, Mark Q,

PY - 2018/6/7

Y1 - 2018/6/7

N2 - Wildlife populations are under intense anthropogenic pressures, with the geographic range of many species shrinking, dramatic reductions in population numbers and undisturbed habitats, and biodiversity loss. It is postulated that we are in the midst of a sixth (Anthropocene) mass extinction event, the first to be induced by human activity. Further, threatening vulnerable species is the increased rate of emerging diseases, another consequence of anthropogenic activities. Innovative approaches are required to help maintain healthy populations until the chronic underlying causes of these issues can be addressed. Fibropapillomatosis in sea turtles is one such wildlife disease. Here, we applied precision-medicine-based approaches to profile fibropapillomatosis tumors to better understand their biology, identify novel therapeutics, and gain insights into viral and environmental triggers for fibropapillomatosis. We show that fibropapillomatosis tumors share genetic vulnerabilities with human cancer types, revealing that they are amenable to treatment with human anti-cancer therapeutics

AB - Wildlife populations are under intense anthropogenic pressures, with the geographic range of many species shrinking, dramatic reductions in population numbers and undisturbed habitats, and biodiversity loss. It is postulated that we are in the midst of a sixth (Anthropocene) mass extinction event, the first to be induced by human activity. Further, threatening vulnerable species is the increased rate of emerging diseases, another consequence of anthropogenic activities. Innovative approaches are required to help maintain healthy populations until the chronic underlying causes of these issues can be addressed. Fibropapillomatosis in sea turtles is one such wildlife disease. Here, we applied precision-medicine-based approaches to profile fibropapillomatosis tumors to better understand their biology, identify novel therapeutics, and gain insights into viral and environmental triggers for fibropapillomatosis. We show that fibropapillomatosis tumors share genetic vulnerabilities with human cancer types, revealing that they are amenable to treatment with human anti-cancer therapeutics

U2 - 10.1038/s42003-018-0059-x

DO - 10.1038/s42003-018-0059-x

M3 - Article

SN - 2399-3642

VL - 1

JO - Communications Biology

JF - Communications Biology

M1 - 63

ER -

Sea turtle fibropapilloma tumors share genomic drivers and therapeutic vulnerabilities with human cancers

Abstract

UN SDGs

Access to Document

Fingerprint

Cite this