HAEM5:EBV-positive diffuse large B-cell lymphoma: Difference between revisions
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|Several tumor suppressor genes such as ''TNFAIP3'' and ''SOCS3'' also become silenced upon ''KMT2D'' loss of function | |Several tumor suppressor genes such as ''TNFAIP3'' and ''SOCS3'' also become silenced upon ''KMT2D'' loss of function<ref>{{Cite journal|last=Ortega-Molina|first=Ana|last2=Boss|first2=Isaac W|last3=Canela|first3=Andres|last4=Pan|first4=Heng|last5=Jiang|first5=Yanwen|last6=Zhao|first6=Chunying|last7=Jiang|first7=Man|last8=Hu|first8=Deqing|last9=Agirre|first9=Xabier|date=2015-10|title=The histone lysine methyltransferase KMT2D sustains a gene expression program that represses B cell lymphoma development|url=https://www.nature.com/articles/nm.3943|journal=Nature Medicine|language=en|volume=21|issue=10|pages=1199–1208|doi=10.1038/nm.3943|issn=1078-8956|pmc=4676270|pmid=26366710}}</ref>. Targeting KDM5 demethylases counteracts ''KMT2D'' loss of function in DLBCL, which can open the opportunity for novel combination targeted therapies.<ref>{{Cite journal|last=Heward|first=James|last2=Koniali|first2=Lola|last3=D’Avola|first3=Annalisa|last4=Close|first4=Karina|last5=Yeomans|first5=Alison|last6=Philpott|first6=Martin|last7=Dunford|first7=James|last8=Rahim|first8=Tahrima|last9=Al Seraihi|first9=Ahad F.|date=2021-08-05|title=KDM5 inhibition offers a novel therapeutic strategy for the treatment of KMT2D mutant lymphomas|url=https://ashpublications.org/blood/article/138/5/370/475650/KDM5-inhibition-offers-a-novel-therapeutic|journal=Blood|language=en|volume=138|issue=5|pages=370–381|doi=10.1182/blood.2020008743|issn=0006-4971|pmc=8351530|pmid=33786580}}</ref> | ||
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|''CCR6''<ref name=":2" /> | |''CCR6''<ref name=":2" /> | ||
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# Carpenter, R. L., & Lo, H.-W. (2014). STAT3 Target Genes Relevant to Human Cancers. ''Cancers'', ''6''(2), 897-925. <nowiki>https://doi.org/10.3390/cancers6020897</nowiki> | # Carpenter, R. L., & Lo, H.-W. (2014). STAT3 Target Genes Relevant to Human Cancers. ''Cancers'', ''6''(2), 897-925. <nowiki>https://doi.org/10.3390/cancers6020897</nowiki> | ||
# Mondello P, Ansell SM and Nowakowski GS (2022) Immune Epigenetic Crosstalk Between Malignant B Cells and the Tumor Microenvironment in B Cell Lymphoma. Front. Genet. 13:826594. doi: 10.3389/fgene.2022.826594 '''<u>(KMT2D) not able to create this citation</u>''' | # Mondello P, Ansell SM and Nowakowski GS (2022) Immune Epigenetic Crosstalk Between Malignant B Cells and the Tumor Microenvironment in B Cell Lymphoma. Front. Genet. 13:826594. doi: 10.3389/fgene.2022.826594 '''<u>(KMT2D) not able to create this citation</u>''' | ||
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==Notes== | ==Notes== | ||