Increased expression of phosphorylated FADD in anaplastic large cell and other t-cell lymphomas

Suketu Patel; Derek Murphy; Eugenia Haralambieva; Zainalabideen A. Abdulla; Kah Keng Wong; Hong Chen; Edith Gould; Giovanna Roncador; Chris S.R. Hatton; Amanda P. Anderson; Alison H. Banham; Karen Pulford

doi:10.4137/Bmi.s16553

Increased expression of phosphorylated FADD in anaplastic large cell and other t-cell lymphomas

Suketu Patel, Derek Murphy, Eugenia Haralambieva, Zainalabideen A. Abdulla, Kah Keng Wong, Hong Chen, Edith Gould, Giovanna Roncador, Chris S.R. Hatton, Amanda P. Anderson, Alison H. Banham, Karen Pulford

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

Abstract

FAS-associated protein with death domain (FADD) is a major adaptor protein involved in extrinsic apoptosis, embryogenesis, and lymphocyte homeostasis. Although abnormalities of the FADD/death receptor apoptotic pathways have been established in tumorigenesis, fewer studies have analyzed the expression and role of phosphorylated FADD (pFADD). Our identifcation of FADD as a lymphoma-associated autoantigen in T-cell lymphoma patients raises the possibility that pFADD, with its correlation with cell cycle, may possess role(s) in human T-cell lymphoma development. This immunohistochemical study investigated pFADD protein expression in a range of normal tissues and lymphomas, particularly T-cell lymphomas that require improved therapies. Whereas pFADD was expressed only in scattered normal T cells, it was detected at high levels in T-cell lymphomas (eg, 84% anaplastic large cell lymphoma and 65% peripheral T cell lymphomas, not otherwise specifed). Te increased expression of pFADD supports further study of its clinical relevance and role in lymphomagenesis, highlighting phosphorylation of FADD as a potential therapeutic target.

Original language	English
Pages (from-to)	77-84
Number of pages	8
Journal	Biomarker Insights
Volume	9
DOIs	https://doi.org/10.4137/Bmi.s16553
Publication status	Published - 2014

Keywords

ALCL
Autoantigen
FADD
Lymphoma
PTCL
pFADD

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https://arrow.tudublin.ie/scschbioart/247Licence: CC BY-NC

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@article{74c95229741947068f44c157f779d028,

title = "Increased expression of phosphorylated FADD in anaplastic large cell and other t-cell lymphomas",

abstract = "FAS-associated protein with death domain (FADD) is a major adaptor protein involved in extrinsic apoptosis, embryogenesis, and lymphocyte homeostasis. Although abnormalities of the FADD/death receptor apoptotic pathways have been established in tumorigenesis, fewer studies have analyzed the expression and role of phosphorylated FADD (pFADD). Our identifcation of FADD as a lymphoma-associated autoantigen in T-cell lymphoma patients raises the possibility that pFADD, with its correlation with cell cycle, may possess role(s) in human T-cell lymphoma development. This immunohistochemical study investigated pFADD protein expression in a range of normal tissues and lymphomas, particularly T-cell lymphomas that require improved therapies. Whereas pFADD was expressed only in scattered normal T cells, it was detected at high levels in T-cell lymphomas (eg, 84\% anaplastic large cell lymphoma and 65\% peripheral T cell lymphomas, not otherwise specifed). Te increased expression of pFADD supports further study of its clinical relevance and role in lymphomagenesis, highlighting phosphorylation of FADD as a potential therapeutic target.",

keywords = "ALCL, Autoantigen, FADD, Lymphoma, PTCL, pFADD",

author = "Suketu Patel and Derek Murphy and Eugenia Haralambieva and Abdulla, \{Zainalabideen A.\} and Wong, \{Kah Keng\} and Hong Chen and Edith Gould and Giovanna Roncador and Hatton, \{Chris S.R.\} and Anderson, \{Amanda P.\} and Banham, \{Alison H.\} and Karen Pulford",

note = "Publisher Copyright: {\textcopyright} the authors, publisher and licensee Libertas Academica Limited.",

year = "2014",

doi = "10.4137/Bmi.s16553",

language = "English",

volume = "9",

pages = "77--84",

journal = "Biomarker Insights",

issn = "1177-2719",

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TY - JOUR

T1 - Increased expression of phosphorylated FADD in anaplastic large cell and other t-cell lymphomas

AU - Patel, Suketu

AU - Murphy, Derek

AU - Haralambieva, Eugenia

AU - Abdulla, Zainalabideen A.

AU - Wong, Kah Keng

AU - Chen, Hong

AU - Gould, Edith

AU - Roncador, Giovanna

AU - Hatton, Chris S.R.

AU - Anderson, Amanda P.

AU - Banham, Alison H.

AU - Pulford, Karen

N1 - Publisher Copyright: © the authors, publisher and licensee Libertas Academica Limited.

PY - 2014

Y1 - 2014

N2 - FAS-associated protein with death domain (FADD) is a major adaptor protein involved in extrinsic apoptosis, embryogenesis, and lymphocyte homeostasis. Although abnormalities of the FADD/death receptor apoptotic pathways have been established in tumorigenesis, fewer studies have analyzed the expression and role of phosphorylated FADD (pFADD). Our identifcation of FADD as a lymphoma-associated autoantigen in T-cell lymphoma patients raises the possibility that pFADD, with its correlation with cell cycle, may possess role(s) in human T-cell lymphoma development. This immunohistochemical study investigated pFADD protein expression in a range of normal tissues and lymphomas, particularly T-cell lymphomas that require improved therapies. Whereas pFADD was expressed only in scattered normal T cells, it was detected at high levels in T-cell lymphomas (eg, 84% anaplastic large cell lymphoma and 65% peripheral T cell lymphomas, not otherwise specifed). Te increased expression of pFADD supports further study of its clinical relevance and role in lymphomagenesis, highlighting phosphorylation of FADD as a potential therapeutic target.

AB - FAS-associated protein with death domain (FADD) is a major adaptor protein involved in extrinsic apoptosis, embryogenesis, and lymphocyte homeostasis. Although abnormalities of the FADD/death receptor apoptotic pathways have been established in tumorigenesis, fewer studies have analyzed the expression and role of phosphorylated FADD (pFADD). Our identifcation of FADD as a lymphoma-associated autoantigen in T-cell lymphoma patients raises the possibility that pFADD, with its correlation with cell cycle, may possess role(s) in human T-cell lymphoma development. This immunohistochemical study investigated pFADD protein expression in a range of normal tissues and lymphomas, particularly T-cell lymphomas that require improved therapies. Whereas pFADD was expressed only in scattered normal T cells, it was detected at high levels in T-cell lymphomas (eg, 84% anaplastic large cell lymphoma and 65% peripheral T cell lymphomas, not otherwise specifed). Te increased expression of pFADD supports further study of its clinical relevance and role in lymphomagenesis, highlighting phosphorylation of FADD as a potential therapeutic target.

KW - ALCL

KW - Autoantigen

KW - FADD

KW - Lymphoma

KW - PTCL

KW - pFADD

UR - https://www.scopus.com/pages/publications/84907516488

U2 - 10.4137/Bmi.s16553

DO - 10.4137/Bmi.s16553

M3 - Article

SN - 1177-2719

VL - 9

SP - 77

EP - 84

JO - Biomarker Insights

JF - Biomarker Insights

ER -

Increased expression of phosphorylated FADD in anaplastic large cell and other t-cell lymphomas

Abstract

Keywords

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