HAEM5:B-lymphoblastic leukaemia/lymphoma with hypodiploidy: Difference between revisions

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 |Near-haploid B-ALL/LBL with hypodiploidy (24–31 chromosomes)
-|Near haploidy may be the primary event with loss of chromosomes, followed by a secondary event of doubling of chromosomes indicating uniparental isodisomy (UPID), microdeletions if any may occur after the secondary event<ref name=":5" />. The chromosomal loss alone may be enough for leukemogenesis and the unconserved random chromosomes may contain specific genes that increase the oncogenic potential of leukemic cells<ref name=":15">{{Cite journal|last=Harrison|first=Christine J.|last2=Moorman|first2=Anthony V.|last3=Barber|first3=Kerry E.|last4=Broadfield|first4=Zoë J.|last5=Cheung|first5=Kan L.|last6=Harris|first6=Rachel L.|last7=Jalali|first7=G. Reza|last8=Robinson|first8=Hazel M.|last9=Strefford|first9=Jonathan C.|date=2005-05|title=Interphase molecular cytogenetic screening for chromosomal abnormalities of prognostic significance in childhood acute lymphoblastic leukaemia: a UK Cancer Cytogenetics Group Study|url=https://pubmed.ncbi.nlm.nih.gov/15877734|journal=British Journal of Haematology|volume=129|issue=4|pages=520–530|doi=10.1111/j.1365-2141.2005.05497.x|issn=0007-1048|pmid=15877734}}</ref><ref>{{Cite journal|last=Raimondi|first=Susana C.|last2=Zhou|first2=Yinmei|last3=Mathew|first3=Susan|last4=Shurtleff|first4=Sheila A.|last5=Sandlund|first5=John T.|last6=Rivera|first6=Gaston K.|last7=Behm|first7=Frederick G.|last8=Pui|first8=Ching-Hon|date=2003-12-15|title=Reassessment of the prognostic significance of hypodiploidy in pediatric patients with acute lymphoblastic leukemia|url=https://pubmed.ncbi.nlm.nih.gov/14669294|journal=Cancer|volume=98|issue=12|pages=2715–2722|doi=10.1002/cncr.11841|issn=0008-543X|pmid=14669294}}</ref>.
+|Near haploidy may be the primary event with loss of chromosomes, followed by a secondary event of doubling of chromosomes indicating uniparental isodisomy (UPID), microdeletions if any may occur after the secondary event<ref name=":5">{{Cite journal|last=Safavi|first=S.|last2=Forestier|first2=E.|last3=Golovleva|first3=I.|last4=Barbany|first4=G.|last5=Nord|first5=K. H.|last6=Moorman|first6=A. V.|last7=Harrison|first7=C. J.|last8=Johansson|first8=B.|last9=Paulsson|first9=K.|date=2013|title=Loss of chromosomes is the primary event in near-haploid and low-hypodiploid acute lymphoblastic leukemia|url=https://www.ncbi.nlm.nih.gov/pubmed/22889820|journal=Leukemia|volume=27|issue=1|pages=248–250|doi=10.1038/leu.2012.227|issn=1476-5551|pmid=22889820}}</ref>. The chromosomal loss alone may be enough for leukemogenesis and the unconserved random chromosomes may contain specific genes that increase the oncogenic potential of leukemic cells<ref name=":15">{{Cite journal|last=Harrison|first=Christine J.|last2=Moorman|first2=Anthony V.|last3=Barber|first3=Kerry E.|last4=Broadfield|first4=Zoë J.|last5=Cheung|first5=Kan L.|last6=Harris|first6=Rachel L.|last7=Jalali|first7=G. Reza|last8=Robinson|first8=Hazel M.|last9=Strefford|first9=Jonathan C.|date=2005-05|title=Interphase molecular cytogenetic screening for chromosomal abnormalities of prognostic significance in childhood acute lymphoblastic leukaemia: a UK Cancer Cytogenetics Group Study|url=https://pubmed.ncbi.nlm.nih.gov/15877734|journal=British Journal of Haematology|volume=129|issue=4|pages=520–530|doi=10.1111/j.1365-2141.2005.05497.x|issn=0007-1048|pmid=15877734}}</ref><ref>{{Cite journal|last=Raimondi|first=Susana C.|last2=Zhou|first2=Yinmei|last3=Mathew|first3=Susan|last4=Shurtleff|first4=Sheila A.|last5=Sandlund|first5=John T.|last6=Rivera|first6=Gaston K.|last7=Behm|first7=Frederick G.|last8=Pui|first8=Ching-Hon|date=2003-12-15|title=Reassessment of the prognostic significance of hypodiploidy in pediatric patients with acute lymphoblastic leukemia|url=https://pubmed.ncbi.nlm.nih.gov/14669294|journal=Cancer|volume=98|issue=12|pages=2715–2722|doi=10.1002/cncr.11841|issn=0008-543X|pmid=14669294}}</ref>.
 |Rare (0.5%)<ref name=":8" />
 |D: Needs demonstration of hypodiploidy (≤ 43 chromosomes) by karyotyping and/or FISH analysis; flow cytometry DNA index analysis and/or single nucleotide polymorphism (SNP) array analysis to identify masked hypodiploidy.
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 '''Note: A slight variation in the range of chromosome number has been reported in the literature in the classification of NH, LH, HH and NH'''<ref name=":0" /><ref name=":1">{{Cite journal|last=Terwilliger|first=T.|last2=Abdul-Hay|first2=M.|date=2017|title=Acute lymphoblastic leukemia: a comprehensive review and 2017 update|url=https://www.ncbi.nlm.nih.gov/pubmed/28665419|journal=Blood Cancer Journal|volume=7|issue=6|pages=e577|doi=10.1038/bcj.2017.53|issn=2044-5385|pmc=5520400|pmid=28665419}}</ref><ref name=":2" /><ref name=":5" /><ref name=":3" /><ref>{{Cite journal|last=Safavi|first=Setareh|last2=Paulsson|first2=Kajsa|date=2017|title=Near-haploid and low-hypodiploid acute lymphoblastic leukemia: two distinct subtypes with consistently poor prognosis|url=https://www.ncbi.nlm.nih.gov/pubmed/27903530|journal=Blood|volume=129|issue=4|pages=420–423|doi=10.1182/blood-2016-10-743765|issn=1528-0020|pmid=27903530}}</ref><ref>{{Cite journal|last=Mehta|first=Parinda A.|last2=Zhang|first2=Mei-Jie|last3=Eapen|first3=Mary|last4=He|first4=Wensheng|last5=Seber|first5=Adriana|last6=Gibson|first6=Brenda|last7=Camitta|first7=Bruce M.|last8=Kitko|first8=Carrie L.|last9=Dvorak|first9=Christopher C.|date=2015|title=Transplantation Outcomes for Children with Hypodiploid Acute Lymphoblastic Leukemia|url=https://www.ncbi.nlm.nih.gov/pubmed/25865650|journal=Biology of Blood and Marrow Transplantation: Journal of the American Society for Blood and Marrow Transplantation|volume=21|issue=7|pages=1273–1277|doi=10.1016/j.bbmt.2015.04.008|issn=1523-6536|pmc=4465998|pmid=25865650}}</ref><ref>{{Cite journal|last=Mullighan|first=Charles G.|date=2012|title=Molecular genetics of B-precursor acute lymphoblastic leukemia|url=https://www.ncbi.nlm.nih.gov/pubmed/23023711|journal=The Journal of Clinical Investigation|volume=122|issue=10|pages=3407–3415|doi=10.1172/JCI61203|issn=1558-8238|pmc=3461902|pmid=23023711}}</ref><ref>{{Cite journal|last=Harrison|first=Christine J.|last2=Moorman|first2=Anthony V.|last3=Broadfield|first3=Zoë J.|last4=Cheung|first4=Kan L.|last5=Harris|first5=Rachel L.|last6=Reza Jalali|first6=G.|last7=Robinson|first7=Hazel M.|last8=Barber|first8=Kerry E.|last9=Richards|first9=Sue M.|date=2004|title=Three distinct subgroups of hypodiploidy in acute lymphoblastic leukaemia|url=https://www.ncbi.nlm.nih.gov/pubmed/15147369|journal=British Journal of Haematology|volume=125|issue=5|pages=552–559|doi=10.1111/j.1365-2141.2004.04948.x|issn=0007-1048|pmid=15147369}}</ref><ref>{{Cite journal|last=Wang|first=Yunhong|last2=Miller|first2=Sue|last3=Roulston|first3=Diane|last4=Bixby|first4=Dale|last5=Shao|first5=Lina|date=2016|title=Genome-Wide Single-Nucleotide Polymorphism Array Analysis Improves Prognostication of Acute Lymphoblastic Leukemia/Lymphoma|url=https://www.ncbi.nlm.nih.gov/pubmed/27161658|journal=The Journal of molecular diagnostics: JMD|volume=18|issue=4|pages=595–603|doi=10.1016/j.jmoldx.2016.03.004|issn=1943-7811|pmid=27161658}}</ref><ref name=":9">{{Cite journal|last=Safavi|first=Setareh|last2=Olsson|first2=Linda|last3=Biloglav|first3=Andrea|last4=Veerla|first4=Srinivas|last5=Blendberg|first5=Molly|last6=Tayebwa|first6=Johnbosco|last7=Behrendtz|first7=Mikael|last8=Castor|first8=Anders|last9=Hansson|first9=Markus|date=2015|title=Genetic and epigenetic characterization of hypodiploid acute lymphoblastic leukemia|url=https://www.ncbi.nlm.nih.gov/pubmed/26544893|journal=Oncotarget|volume=6|issue=40|pages=42793–42802|doi=10.18632/oncotarget.6000|issn=1949-2553|pmc=4767471|pmid=26544893}}</ref> <ref name=":12">{{Cite journal|last=Moorman|first=Anthony V.|date=2016|title=New and emerging prognostic and predictive genetic biomarkers in B-cell precursor acute lymphoblastic 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R.|last2=Mullighan|first2=C. G.|date=2010|title=Genomic profiling of high-risk acute lymphoblastic leukemia|url=https://www.ncbi.nlm.nih.gov/pubmed/20739952|journal=Leukemia|volume=24|issue=10|pages=1676–1685|doi=10.1038/leu.2010.177|issn=1476-5551|pmid=20739952}}</ref><ref name=":4">Karen Seiter, MD; Chief Editor: Emmanuel C Besa, MD (2018). Acute lymphoblastic  leukemia (ALL). Medscape. emedicine, Medscape Article, Drugs & Diseases, Hematology.</ref>   '''[1-17].'''
+In addition, lymphoid transcription factor gene ''IKZF3'' (13%, encoding AIOLOS) and deletions of histone cluster at 6p22 (19%) were also reported<ref name=":2" />. In low hypodiploid (LH) ALL mutations involved ''TP53'' (91.2%) and ''IKZF2'' (53%, encoding HELIOS, 2q34), and ''RB1'' genes (41%) loci<ref name=":2" />. Both NH and LH had activation of RAS signaling and P13K signaling pathways and sensitive to P13K inhibitors indicating these drugs may offer a new therapeutic option<ref name=":2" />. Inn this group, several studies have not only identified a high percentage of pediatric patients with ''TP53'' mutations, but close to half displayed germline mutations, suggesting that LH ALL is a manifestation of Li-Fraumeni syndrome in children.  Adults also showed a high incidence of ''TP53'' (91%) in low hypodiploid ALL mutations, but these mutations appear to be somatic in origin. In NH, mutations appear in genes involving receptor tyrosine kinase (RTK) pathway, Ras signaling, ''IKZF3'' (17q21.1), and histone clusters, but rarely ''IZFK2'', ''RB1'', or ''TP53''<ref name=":2" />.
-Near haploidy may be the primary event with loss of chromosomes, followed by a secondary event of doubling of chromosomes indicating uniparental isodisomy (UPID), microdeletions if any may occur after the secondary event<ref name=":5">{{Cite journal|last=Safavi|first=S.|last2=Forestier|first2=E.|last3=Golovleva|first3=I.|last4=Barbany|first4=G.|last5=Nord|first5=K. H.|last6=Moorman|first6=A. V.|last7=Harrison|first7=C. J.|last8=Johansson|first8=B.|last9=Paulsson|first9=K.|date=2013|title=Loss of chromosomes is the primary event in near-haploid and low-hypodiploid acute lymphoblastic leukemia|url=https://www.ncbi.nlm.nih.gov/pubmed/22889820|journal=Leukemia|volume=27|issue=1|pages=248–250|doi=10.1038/leu.2012.227|issn=1476-5551|pmid=22889820}}</ref>.
-In hypodiploid ALL, molecular mutations are equally as important as chromosome number, or as a result of chromosome number, molecular mutations have a driving effect.  Both LH and NH have common mutations involved in the disease process. In near haploid ALL (NH) ''RTK'' and ''RAS'' (71%) signaling were a hallmark<ref name=":2" />. In addition, lymphoid transcription factor gene ''IKZF3'' (13%, encoding AIOLOS) and deletions of histone cluster at 6p22 (19%) were also reported<ref name=":2" />. In low hypodiploid (LH) ALL mutations involved ''TP53'' (91.2%) and ''IKZF2'' (53%, encoding HELIOS, 2q34), and ''RB1'' genes (41%) loci<ref name=":2" />. Both NH and LH had activation of RAS signaling and P13K signaling pathways and sensitive to P13K inhibitors indicating these drugs may offer a new therapeutic option<ref name=":2" />. Inn this group, several studies have not only identified a high percentage of pediatric patients with ''TP53'' mutations, but close to half displayed germline mutations, suggesting that LH ALL is a manifestation of Li-Fraumeni syndrome in children.  Adults also showed a high incidence of ''TP53'' (91%) in low hypodiploid ALL mutations, but these mutations appear to be somatic in origin. In NH, mutations appear in genes involving receptor tyrosine kinase (RTK) pathway, Ras signaling, ''IKZF3'' (17q21.1), and histone clusters, but rarely ''IZFK2'', ''RB1'', or ''TP53''<ref name=":2" />.