Modeling chromosomal translocations using conditional alleles to recapitulate initiating events in human leukemias.

Modeling chromosomal translocations using conditional alleles to recapitulate initiating events in human leukemias.

Recurrent reciprocal chromosomal translocations are present in more than 50% of leukemias. A deeper understanding of how they affect cancer initiation is essential for evaluating the origins of cancer and the potential for therapy based on the translocation products. Mouse models of chromosomal tran...

Full beskrivning

Bibliografiska uppgifter
Huvudupphovsmän: Lobato, M, Metzler, M, Drynan, L, Forster, A, Pannell, R, Rabbitts, T
Materialtyp: Journal article
Språk:English
Publicerad: 2008
_version_ 1826300057567100928
author Lobato, M
Metzler, M
Drynan, L
Forster, A
Pannell, R
Rabbitts, T
author_facet Lobato, M
Metzler, M
Drynan, L
Forster, A
Pannell, R
Rabbitts, T
author_sort Lobato, M
collection OXFORD
description Recurrent reciprocal chromosomal translocations are present in more than 50% of leukemias. A deeper understanding of how they affect cancer initiation is essential for evaluating the origins of cancer and the potential for therapy based on the translocation products. Mouse models of chromosomal translocations are required for this. Here we summarize three methodologies developed in our laboratory to model chromosomal translocations (knock-in, translocator, and invertor methods). We have used these models to study leukemias caused by fusions of the mixed lineage leukemia (MLL) gene and the Ews-ERG fusion gene to evaluate oncogenicity and elucidate some general principles about translocation products. We show that MLL fusions have the capacity to cause hematopoietic tumors only if expressed in permissive cells and that the Mll-Enl fusion can cause lineage reassignment if the chromosomal translocation occurs in lineage noncommitted progenitors. The leukemia-initiating cells generated by Mll fusions or by Ews-ERG fusion can be committed cells within the hematopoietic pathway. Our translocation mimic models are applicable to any human reciprocal chromosomal translocation.
first_indexed 2024-03-07T05:11:21Z
format Journal article
id oxford-uuid:dba6de00-ad2f-4ed7-a71e-9b3947d98771
institution University of Oxford
language English
last_indexed 2024-03-07T05:11:21Z
publishDate 2008
record_format dspace
spelling oxford-uuid:dba6de00-ad2f-4ed7-a71e-9b3947d987712022-03-27T09:12:10ZModeling chromosomal translocations using conditional alleles to recapitulate initiating events in human leukemias.Journal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:dba6de00-ad2f-4ed7-a71e-9b3947d98771EnglishSymplectic Elements at Oxford2008Lobato, MMetzler, MDrynan, LForster, APannell, RRabbitts, TRecurrent reciprocal chromosomal translocations are present in more than 50% of leukemias. A deeper understanding of how they affect cancer initiation is essential for evaluating the origins of cancer and the potential for therapy based on the translocation products. Mouse models of chromosomal translocations are required for this. Here we summarize three methodologies developed in our laboratory to model chromosomal translocations (knock-in, translocator, and invertor methods). We have used these models to study leukemias caused by fusions of the mixed lineage leukemia (MLL) gene and the Ews-ERG fusion gene to evaluate oncogenicity and elucidate some general principles about translocation products. We show that MLL fusions have the capacity to cause hematopoietic tumors only if expressed in permissive cells and that the Mll-Enl fusion can cause lineage reassignment if the chromosomal translocation occurs in lineage noncommitted progenitors. The leukemia-initiating cells generated by Mll fusions or by Ews-ERG fusion can be committed cells within the hematopoietic pathway. Our translocation mimic models are applicable to any human reciprocal chromosomal translocation.
spellingShingle Lobato, M
Metzler, M
Drynan, L
Forster, A
Pannell, R
Rabbitts, T
Modeling chromosomal translocations using conditional alleles to recapitulate initiating events in human leukemias.
title Modeling chromosomal translocations using conditional alleles to recapitulate initiating events in human leukemias.
title_full Modeling chromosomal translocations using conditional alleles to recapitulate initiating events in human leukemias.
title_fullStr Modeling chromosomal translocations using conditional alleles to recapitulate initiating events in human leukemias.
title_full_unstemmed Modeling chromosomal translocations using conditional alleles to recapitulate initiating events in human leukemias.
title_short Modeling chromosomal translocations using conditional alleles to recapitulate initiating events in human leukemias.
title_sort modeling chromosomal translocations using conditional alleles to recapitulate initiating events in human leukemias
work_keys_str_mv AT lobatom modelingchromosomaltranslocationsusingconditionalallelestorecapitulateinitiatingeventsinhumanleukemias
AT metzlerm modelingchromosomaltranslocationsusingconditionalallelestorecapitulateinitiatingeventsinhumanleukemias
AT drynanl modelingchromosomaltranslocationsusingconditionalallelestorecapitulateinitiatingeventsinhumanleukemias
AT forstera modelingchromosomaltranslocationsusingconditionalallelestorecapitulateinitiatingeventsinhumanleukemias
AT pannellr modelingchromosomaltranslocationsusingconditionalallelestorecapitulateinitiatingeventsinhumanleukemias
AT rabbittst modelingchromosomaltranslocationsusingconditionalallelestorecapitulateinitiatingeventsinhumanleukemias

Liknande verk