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BIOMARKER:

BTK L845F

i
Other names: BTK, Bruton Tyrosine Kinase, Bruton Agammaglobulinemia Tyrosine Kinase, Tyrosine-Protein Kinase BTK, Bruton'S Tyrosine Kinase, B-Cell Progenitor Kinase, AGMX1, ATK, BPK, Tyrosine-Protein Kinase BTK Isoform (Lacking Exon 13 To 17), Dominant-Negative Kinase-Deficient Brutons Tyrosine Kinase, Tyrosine-Protein Kinase BTK Isoform (Lacking Exon 14), Truncated Bruton Agammaglobulinemia Tyrosine Kinase, Agammaglobulinaemia Tyrosine Kinase, Agammaglobulinemia Tyrosine Kinase, PSCTK1, IGHD3, IMD1, XLA, AT
Entrez ID:
Related biomarkers:
Associations
Trials
1year
Understanding Resistance Mechanisms and Growth Kinetics of CLL Treated with Covalent and Non-Covalent BTK Inhibitors (ASH 2023)
We performed whole exome sequencing on matched tumor and normal samples from 19 CLL patients treated with BTK inhibitors (Ibrutinib, Ibr, 42% (8/19); Acalabrutinib, Acala, 21% (4/19) and Pirtobrutinib, Pirto, 37% (7/19))...The ibr cohort had no prior BTKi therapy whereas 1 patient in the acala cohort had received spebrutinib, another cBTKi...The approach of combining WES data with growth pattern modeling can help unravel the complexities of tumor evolution and drug resistance for the different classes of BTKi. Data on comparative clone growth rates will be presented at the meeting.
IO biomarker
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TP53 (Tumor protein P53) • MCL1 (Myeloid cell leukemia 1) • BIRC3 (Baculoviral IAP repeat containing 3)
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TP53 mutation • Chr del(11q) • BTK C481S • BTK mutation • BTK C481 • BTK C481R • BTK T474I • BTK L845F • PLCG2 L845F
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Imbruvica (ibrutinib) • Calquence (acalabrutinib) • Jaypirca (pirtobrutinib) • spebrutinib (CC-292)
1year
Ultra-deep mutational landscape in chronic lymphocytic leukemia uncovers dynamics of resistance to targeted therapies. (PubMed, Haematologica)
We used duplex sequencing, a technology that enables detection of mutations at ultra-low allelic frequencies, to identify mutations in five genes associated with drug resistance in CLL and followed their evolution in two patients who received multiple targeted therapies and ultimately developed disease progression on pirtobrutinib...In patient R001, multiple known resistance mutations in both BTK and PLCG2 appeared following progression on zanubrutinib (BTK p.L528W, p.C481S, PLCG2 S707F, L845F, R665W, and D993H). In contrast, patient R002 developed multiple BTK mutations following acalabrutinib treatment including known resistance mutations p.C481R, p.T474I and p.C481S...For example, BTK p.L528W in patient R001 increased in frequency more than 1000-fold (from CCF 0.02% to 35%), and p.T474I in patient R002 increased in CCF from 0.03% to 4.2% (more than 100-fold). Our data illuminates the evolutionary dynamics of resistant clones over the patients' disease course and under selective pressure from different targeted treatments.
Journal • IO biomarker
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PLCG2 (Phospholipase C Gamma 2)
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BTK C481S • PLCG2 mutation • BTK mutation • BTK C481R • BTK R665W • BTK T474I • BTK L845F • PLCG2 L845F
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Brukinsa (zanubrutinib) • Calquence (acalabrutinib) • Jaypirca (pirtobrutinib)
over1year
Mutations Detected in Real World Clinical Sequencing during BTK Inhibitor Treatment in Chronic Lymphocytic Leukemia (CLL) (IWCLL 2023)
73 patients had only one BTKi (ibrutinib (IBR), 64; acalabrutinib (ACA), 9). 12 pts had multiple BTKis, 8 with two drugs with IBR first followed by ACA (Nf3, 37.5%), vecabrutinib (Nf1, 12.5%), and PIR (Nf4, 50.0%); and 4 with three or more drugs... Our retrospective report summarizes mutations detected during BTKi treatment and shows that BTK L528W can occur during both covalent and non-covalent BTK inhibitor therapy. Four of six patients who progressed on PIR had T474 mutations. In addition, our results may suggest that activating mutations in RAS/RAF/MAPK pathway are related to BTKi resistance.
Clinical • Real-world evidence • IO biomarker • Real-world
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KRAS (KRAS proto-oncogene GTPase) • BRAF (B-raf proto-oncogene) • TP53 (Tumor protein P53) • NRAS (Neuroblastoma RAS viral oncogene homolog) • MAP2K1 (Mitogen-activated protein kinase kinase 1) • NF1 (Neurofibromin 1) • SF3B1 (Splicing Factor 3b Subunit 1) • NOTCH2 (Notch 2) • PLCG2 (Phospholipase C Gamma 2) • XPO1 (Exportin 1)
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TP53 mutation • KRAS mutation • BRAF mutation • NRAS mutation • Chr del(11q) • RAS mutation • SF3B1 mutation • BTK C481S • NOTCH2 mutation • PLCG2 mutation • BTK mutation • BTK C481R • BTK C481Y • BTK R665W • BTK T474I • BTK L845F • PLCG2 L845F • XPO1 mutation
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Imbruvica (ibrutinib) • Calquence (acalabrutinib) • vecabrutinib (SNS-062)
over1year
Bruton's Tyrosine Kinase and Phospholipase C-Gamma 2 Mutational Profiles in Pooled Analysis of Patients With Chronic Lymphocytic Leukemia Treated With Ibrutinib (IWCLL 2023)
Novel, non-C481 BTK mutations have been described, including BTK L528W, which has been reported in patients treated with ibrutinib, zanubrutinib, and pirtobrutinib (Maddocks, JAMA Oncol. This is the largest dataset characterizing the incidence and patterns of BTK and PLCG2 mutations in patients with CLL treated with ibrutinib. BTK C481 mutations are the most frequently occurring mutations. PLCG2 mutations occur across the gene at a low incidence per locus (<5%).
Retrospective data
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TP53 (Tumor protein P53) • IGH (Immunoglobulin Heavy Locus) • PLCG2 (Phospholipase C Gamma 2)
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TP53 mutation • BTK C481S • PLCG2 mutation • BTK mutation • BTK C481 • BTK C481R • BTK C481Y • BTK R665W • BTK T474I • BTK L845F • PLCG2 D1140N • PLCG2 L845F
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Imbruvica (ibrutinib) • Brukinsa (zanubrutinib) • Jaypirca (pirtobrutinib)
over1year
BTK AND PLCG2 GENE MUTATIONS IN CHRONIC LYMPHOCYTIC LEUKEMIA PATIENTS WITH RESISTANCE TO COVALENT BTK INHIBITOR (EHA 2023)
There were 29 men, 16 women, median age 65.5 years (range 47-86), 43 patients received ibrutinib and 2 acalabrutinib. Our study shows that BTK and/or PLCG2 mutations were found in 64.4% of patients with progression of CLL during BTKi therapy, and in 35.6% of patients the cause of resistance has not yet been identified. Most mutations in our sample were detected in the C481 codon of BTK gene after 2 years of treatment, suggesting that regular screening with simple PCR tests starting from the second year of treatment is a reasonable approach. NGS may expand data in cases with undetectable mutations.
Clinical
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PLCG2 (Phospholipase C Gamma 2)
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BTK C481S • PLCG2 mutation • BTK mutation • BTK C481 • BTK L845F • PLCG2 L845F
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Imbruvica (ibrutinib) • Calquence (acalabrutinib)
2years
Novel BTK Mutations Conferring Resistance to Non-Covalent BTK Inhibitors and Alternative Treatment Strategy (ASH 2022)
Here,we generated and comprehensively characterized BTK and PLCG2 mutations conferring resistance to ibrutinib and five different non-covalent BTKi namely pirtobrutinib (LOXO-305), vecabrutinib (SNS-062), nemtabrutinib (ARQ-531), fenebrutinib (GDC-0853), and RN-486. We also found that cells harboring these novel BTK mutations showed differential sensitivity to the covalent vs. non-covalent BTKi. We further demonstrate the potential of venetoclax as follow up treatment upon resistance to non-covalent BTKi.
IO biomarker
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PLCG2 (Phospholipase C Gamma 2)
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PLCG2 mutation • BTK mutation • BTK L845F • PLCG2 L845F
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Venclexta (venetoclax) • Imbruvica (ibrutinib) • Jaypirca (pirtobrutinib) • vecabrutinib (SNS-062) • RN486 • fenebrutinib (RG7845) • nemtabrutinib (MK-1026)