BCR

From Compendium of Cancer Genome Aberrations
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Primary Author(s)*

Brian Davis, PhD

Synonyms

BCR, RhoGEF and GTPase activating protein; Breakpoint Cluster Region; BCR1; ALL; CML; PHL; D22S11; D22S662

Genomic Location

Cytoband: 22q11.23

Genomic Coordinates:

GRCh38.p12 23180365..23318037

Cancer Category/Type

Chronic Myeloid Leukemia (also referred as (Chronic Myelogenous Leukemia)

More than 90% of patients diagnosed with Chronic Myeloid Leukemia bear a Philadelphia chromosome t(9;22)(q34.1;q11.2), which is a reciprocal translocation between chromosome 22 (BCR locus) and chromosome 9 (ABL1 locus (1, also see OMIM). The Drug Imatinib mesylate, also known as Gleevec, was the one of the first molecularly developed drugs, and has a remarkably high success rate in treatment of patients with Chronic Myeloid Leukemia (5)

Acute Lymphoblastic Leukemia

Approximately 20% of patients (25 - 30% of adult and 2 - 10% of children) diagnosed with Acute Lymphoblastic Leukemia bear a Philadelphia chromosome t(9;22)(q34.1;q11.2), which is a reciprocal translocation between chromosome 22 (BCR locus) and chromosome 9 (ABL1 locus) (1, also see OMIM). Treatment of Acute Lymphoblastic Leukemia patients with Gleevec do not have the same success as Chronic Myeloid Leukemia patients treated with Gleevec, as the genomic instability of ALL cells contribute to point mutations arising in the BRC-ABL kinase domain, leading to resistance to Gleevec (4).

Gene Overview

The function of the normal BCR gene product is as a GTPase-activating protein for RAC1 and CDC42. Promotes the exchange of RAC or CDC42-bound GDP by GTP, thereby activating them. The protein has serine/threonine kinase activity. (9)

By far the most prevalent BCR alteration associated with cancer are the fusions of the BCR gene with a number of parters, but especially with the ABL1 gene. A reciprocal translocation between chromosome 22 (BCR locus) and chromosome 9 (ABL1 locus) produces the Philadelphia chromosome t(9;22)(q34.1;q11.2), which is prevalent in Chronic Myeloid Leukemia (1, 2) and to a lesser extent in B-cell Acute Lymphoblastic Leukemia and T-cell Acute Lymphoblastic Leukemia. The head to tail arrangement of the BCR-ABL1 fusion gene results in an activated tyrosine kinase activity (6).

It appears that the N-terminal domain of BCR can cause oligomerization of the BCR-ABL1 protein product, thus activating the ABL1 tyrosine kinase domain of the fusion protein (6, 10, 11).

See the "ABL1 gene" for additional details of the BCR-ABL1 gene fusion.

Common Alteration Types

By far the most common ABL1 alteration associated with cancer is the BCR-ABL1 fusion, a reciprocal translocation between chromosome 22 (BCR locus) and chromosome 9 (ABL1 locus) produces the Philadelphia chromosome t(9;22)(q34.1;q11.2), which is prevalent in Chronic Myeloid Leukemia (1, 2) and to a lesser extent in B-cell Acute Lymphoblastic Leukemia and T-cell Acute Lymphoblastic Leukemia. The head to tail arrangement of the BCR-ABL1 fusion gene results in an activated tyrosine kinase activity.

A number of other gene fusion partners have been identified with ABL1 and linked to other hematological cancers, but at a much smaller prevalence than BCR-ABL1.

A small number of individual patients have been described with a BCR-JAK2 (Janus Kinase 2) fusion gene leading to Chronic myeloid leukemia (CML) and other hematological neoplasms, but this fusion gene appears to be rare (12, 13, 14, also see [1] Atlas of Genetics and Cytogenetics in Oncology and Haematology]).

BCR-FGFR1

BCR-PDCFRA


Copy Number Loss Copy Number Gain LOH Loss-of-Function Mutation Gain-of-Function Mutation Translocation/Fusion
EXAMPLE: X EXAMPLE: X EXAMPLE: X EXAMPLE: X EXAMPLE: X EXAMPLE: X

Internal Pages

Put your text here

EXAMPLE Germline Cancer Predisposition Genes

External Links

Put your text here - Include as applicable links to: 1) Atlas of Genetics and Cytogenetics in Oncology and Haematology, 2) COSMIC, 3) CIViC, 4) St. Jude ProteinPaint, 5) Precision Medicine Knnowledgebase (Weill Cornell), 6) Cancer Index, 7) OncoKB, 8) My Cancer Genome, 9) UniProt, 10) Pfam, 11) GeneCards, 12) GeneReviews, and 13) Any gene-specific databases.

EXAMPLES

BCR by Atlas of Genetics and Cytogenetics in Oncology and Haematology - detailed gene information

BCR by COSMIC - sequence information, expression, catalogue of mutations

BCR-ABL1 by CIViC - general knowledge and evidence-based variant specific information

BCR by St. Jude ProteinPaint mutational landscape and matched expression data.

BCR by Precision Medicine Knowledgebase (Weill Cornell) - manually vetted interpretations of variants and CNVs

BCR by Cancer Index - gene, pathway, publication information matched to cancer type

BCR-ABL1 by OncoKB - mutational landscape, mutation effect, variant classification

BCR by My Cancer Genome - brief gene overview

BCR by UniProt - protein and molecular structure and function

BCR by Pfam - gene and protein structure and function information

BCR by GeneCards - general gene information and summaries

BCR by OMIM - compendium of human genes and genetic phenotypes

References

1. Drucker, BJ et al. (2001). Activity of a Specific Inhibitor of the BCR-ABL Tyrosine Kinase in the Blast Crisis of Chronic Myeloid Leukemia and Acute Lymphoblastic Leukemia with the Philadelphia Chromosome. NEJM 344:1038-1042 PMID 11287973. DOI: 10.1056/NEJM200104053441402

2. Faderl, S et al. (1999). The Biology of Chronic Myeloid Leukemia. NEJM 341:164-172. PMID 10403855. DOI: 10.1056/NEJM199907153410306

3. Wong S and Witte ON. (2004). The BCR-ABL story: bench to bedside and back. Annu Rev Immunol. 22:247-306. PMID 15032571 DOI: 10.1146/annurev.immunol.22.012703.104753

4. Soverini, S. et al. (2014). Drug resistance and BCR-ABL kinase domain mutations in Philadelphia chromosome-positive acute lymphoblastic leukemia from the imatinib to the second-generation tyrosine kinase inhibitor era: The main changes are in the type of mutations, but not in the frequency of mutation involvement. Cancer 120:1002-9, PMID 24382642 DOI: 10.1002/cncr.28522

5. Drucker, B. J., et al. (2001). Efficacy and safety of a specific inhibitor of the BCR-ABL tyrosine kinase in chronic myeloid leukemia. New England Journal of Medicine 344, 1031–1037. PMID 11287972 DOI: 10.1056/NEJM200104053441401

6. Greuber, E.K. et al. (2013). Role of ABL family kinases in cancer: from leukaemia to solid tumours. Nat. Rev. Cancer 13: 559–571. PMID 23842646 DOIi: 10.1038/nrc3563

7. Quintás-Cardama, A. and Cortes, J. (2008). Therapeutic Options Against BCR-ABL1 T315I-Positive Chronic Myelogenous Leukemia. Clinical Cancer Research 14: 4392-9. PMID 18628453 DOI: 10.1158/1078-0432.CCR-08-0117

8. Redaelli S. et al. (2009). Activity of bosutinib, dasatinib, and nilotinib against 18 imatinib-resistant BCR/ABL mutants. J Clin Oncol. 27: 469-71. PMID 19075254 DOI: 10.1200/JCO.2008.19.8853

9. Diekmann D. et al. (1991). Bcr encodes a GTPase-activating protein for p21rac. Nature 35: 400-2. PMID 1903516 DOI: 10.1038/351400a0

10. McWhirter, JR and Wang, JY. (1991). Activation of tyrosinase kinase and microfilament-binding functions of c-abl by bcr sequences in bcr/abl fusion proteins. Mol Cell. Biol. 11:1553-1565. PMID 1705008

11. Muller, AJ. et al. (1991). BCR first exon sequences specifically activate the BCR/ABL tyrosine kinase oncogene of Philadelphia chromosome-positive human leukemias. Mol. Cell. Biol. 11: 1785-1792. PMID 2005881

12. Griesinger, F., et al. (2005). A BCR-JAK2 fusion gene as the result of a t(9;22)(p24;q11.2) translocation in a patient with a clinically typical chronic myeloid leukemia. Genes Chromosomes Cancer. 44: 329-33. PMID 16001431 DOI: 10.1002/gcc.20235

13. He, R. (2016). BCR-JAK2 fusion in a myeloproliferative neoplasm with associated eosinophilia. Cancer Genet. 209: 223-8. PMID 27134074 DOI: 10.1016/j.cancergen.2016.03.002

14. Jatiani, S.S. et al. (2010), JAK/STAT Pathways in Cytokine Signaling and Myeloproliferative Disorders: Approaches for Targeted Therapies. Genes Cancer. 979-993. PMID 21442038 doi: 10.1177/1947601910397187

Notes

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