The influence of subclonal resistance mutations on targeted cancer therapy

Key Points All cancers probably contain an enormous number of coexisting subclonal mutations; in some cases, every possible mutation could exist in at least one cell in the tumour Resistance to molecularly targeted therapies can arise from selective growth of pre-existing subclones within the bulk o...

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Published inNature reviews. Clinical oncology Vol. 13; no. 6; pp. 335 - 347
Main Authors Schmitt, Michael W., Loeb, Lawrence A., Salk, Jesse J.
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 01.06.2016
Nature Publishing Group
Subjects
692/420/2489/68
692/699/67/1059/2326
692/699/67/1059/602
692/699/67/1857
692/700/565/1436/2185
Cancer
Care and treatment
Drug resistance
Drug Resistance, Neoplasm - genetics
ErbB Receptors - antagonists & inhibitors
Fusion Proteins, bcr-abl - antagonists & inhibitors
Gene mutations
Genes, erbB-1 - genetics
Genetic aspects
Health aspects
Humans
MAP Kinase Kinase Kinases - antagonists & inhibitors
MAP Kinase Kinase Kinases - genetics
MAP Kinase Signaling System - drug effects
Medicine & Public Health
Methods
Molecular targeted therapy
Molecular Targeted Therapy - methods
Mutation - drug effects
Mutation - genetics
Neoplasms - drug therapy
Neoplasms - genetics
Oncology
Protein-Tyrosine Kinases - antagonists & inhibitors
Proto-Oncogene Proteins B-raf - antagonists & inhibitors
Proto-Oncogene Proteins B-raf - genetics
Proto-Oncogene Proteins c-kit - antagonists & inhibitors
review-article
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Abstract Key Points All cancers probably contain an enormous number of coexisting subclonal mutations; in some cases, every possible mutation could exist in at least one cell in the tumour Resistance to molecularly targeted therapies can arise from selective growth of pre-existing subclones within the bulk of the tumour that carry drug-resistance mutations and thus have a survival advantage Drug-resistance mutations can be found in variable proportions of tumour cells before therapy; their early detection enables stratification of patients to more-effective treatments and avoidance of treatments that are destined to fail Accurate identification of resistance mutations requires highly sensitive detection techniques and representative tumour sampling Routine interrogation of the subclonal genetic structure of tumours will be critical to the success of personalized cancer medicine The molecularly targeted therapy paradigm has led to improvements in the management of patients with cancer. Responses to targeted therapies are, however, mostly short-lived, owing to inherent or acquired resistance, which in most cases relates to the outgrowth of pre-existent rare subclones harbouring resistance mutations. Our current understanding of this concept is reviewed herein; how knowledge of pre-existing resistance mechanism obtained through the use of ultra-sensitive sensitive DNA-sequencing assays might be best exploited to improve personalized medicine is discussed. Clinical oncology is being revolutionized by the increasing use of molecularly targeted therapies. This paradigm holds great promise for improving cancer treatment; however, allocating specific therapies to the patients who are most likely to derive a durable benefit continues to represent a considerable challenge. Evidence continues to emerge that cancers are characterized by extensive intratumour genetic heterogeneity, and that patients being considered for treatment with a targeted agent might, therefore, already possess resistance to the drug in a minority of cells. Indeed, multiple examples of pre-existing subclonal resistance mutations to various molecularly targeted agents have been described, which we review herein. Early detection of pre-existing or emerging drug resistance could enable more personalized use of targeted cancer therapy, as patients could be stratified to receive the therapies that are most likely to be effective. We consider how monitoring of drug resistance could be incorporated into clinical practice to optimize the use of targeted therapies in individual patients.
AbstractList Clinical oncology is being revolutionized by the increasing use of molecularly targeted therapies. This paradigm holds great promise for improving cancer treatment; however, allocating specific therapies to the patients who are most likely to derive a durable benefit continues to represent a considerable challenge. Evidence continues to emerge that cancers are characterized by extensive intratumour genetic heterogeneity, and that patients being considered for treatment with a targeted agent might, therefore, already possess resistance to the drug in a minority of cells. Indeed, multiple examples of pre-existing subclonal resistance mutations to various molecularly targeted agents have been described, which we review herein. Early detection of pre-existing or emerging drug resistance could enable more personalized use of targeted cancer therapy, as patients could be stratified to receive the therapies that are most likely to be effective. We consider how monitoring of drug resistance could be incorporated into clinical practice to optimize the use of targeted therapies in individual patients.
Clinical oncology is being revolutionized by the increasing use of molecularly targeted therapies. This paradigm holds great promise for improving cancer treatment; however, allocating specific therapies to the patients who are most likely to derive a durable benefit continues to represent a considerable challenge. Evidence continues to emerge that cancers are characterized by extensive intratumour genetic heterogeneity, and that patients being considered for treatment with a targeted agent might, therefore, already possess resistance to the drug in a minority of cells. Indeed, multiple examples of pre-existing subclonal resistance mutations to various molecularly targeted agents have been described, which we review herein. Early detection of pre-existing or emerging drug resistance could enable more personalized use of targeted cancer therapy, as patients could be stratified to receive the therapies that are most likely to be effective. We consider how monitoring of drug resistance could be incorporated into clinical practice to optimize the use of targeted therapies in individual patients.Clinical oncology is being revolutionized by the increasing use of molecularly targeted therapies. This paradigm holds great promise for improving cancer treatment; however, allocating specific therapies to the patients who are most likely to derive a durable benefit continues to represent a considerable challenge. Evidence continues to emerge that cancers are characterized by extensive intratumour genetic heterogeneity, and that patients being considered for treatment with a targeted agent might, therefore, already possess resistance to the drug in a minority of cells. Indeed, multiple examples of pre-existing subclonal resistance mutations to various molecularly targeted agents have been described, which we review herein. Early detection of pre-existing or emerging drug resistance could enable more personalized use of targeted cancer therapy, as patients could be stratified to receive the therapies that are most likely to be effective. We consider how monitoring of drug resistance could be incorporated into clinical practice to optimize the use of targeted therapies in individual patients.
Key Points All cancers probably contain an enormous number of coexisting subclonal mutations; in some cases, every possible mutation could exist in at least one cell in the tumour Resistance to molecularly targeted therapies can arise from selective growth of pre-existing subclones within the bulk of the tumour that carry drug-resistance mutations and thus have a survival advantage Drug-resistance mutations can be found in variable proportions of tumour cells before therapy; their early detection enables stratification of patients to more-effective treatments and avoidance of treatments that are destined to fail Accurate identification of resistance mutations requires highly sensitive detection techniques and representative tumour sampling Routine interrogation of the subclonal genetic structure of tumours will be critical to the success of personalized cancer medicine The molecularly targeted therapy paradigm has led to improvements in the management of patients with cancer. Responses to targeted therapies are, however, mostly short-lived, owing to inherent or acquired resistance, which in most cases relates to the outgrowth of pre-existent rare subclones harbouring resistance mutations. Our current understanding of this concept is reviewed herein; how knowledge of pre-existing resistance mechanism obtained through the use of ultra-sensitive sensitive DNA-sequencing assays might be best exploited to improve personalized medicine is discussed. Clinical oncology is being revolutionized by the increasing use of molecularly targeted therapies. This paradigm holds great promise for improving cancer treatment; however, allocating specific therapies to the patients who are most likely to derive a durable benefit continues to represent a considerable challenge. Evidence continues to emerge that cancers are characterized by extensive intratumour genetic heterogeneity, and that patients being considered for treatment with a targeted agent might, therefore, already possess resistance to the drug in a minority of cells. Indeed, multiple examples of pre-existing subclonal resistance mutations to various molecularly targeted agents have been described, which we review herein. Early detection of pre-existing or emerging drug resistance could enable more personalized use of targeted cancer therapy, as patients could be stratified to receive the therapies that are most likely to be effective. We consider how monitoring of drug resistance could be incorporated into clinical practice to optimize the use of targeted therapies in individual patients.
Clinical oncology is being revolutionized by the increasing use of molecularly targeted therapies. This paradigm holds great promise for improving cancer treatment; however, allocating specific therapies to the patients who are most likely to derive a durable benefit continues to represent a considerable challenge. It is becoming increasingly clear that cancers are characterized by extensive intratumour genetic heterogeneity, and that patients being considered for treatment with a targeted agent might, therefore, already possess resistance to the drug in a minority of cells. Indeed, multiple examples of pre-existing subclonal resistance mutations to various molecularly targeted agents have been described, which we review herein. Early detection of pre-existing or emerging drug resistance could enable more personalized use of targeted cancer therapy, as patients could be stratified to receive the therapies that are most likely to be effective. We consider how monitoring of drug resistance could be incorporated into clinical practice to optimize the use of targeted therapies in individual patients.
Audience Academic
Author Schmitt, Michael W.
Loeb, Lawrence A.
Salk, Jesse J.
Author_xml – sequence: 1
  givenname: Michael W.
  surname: Schmitt
  fullname: Schmitt, Michael W.
  email: mwschmit@uw.edu
  organization: Departments of Biochemistry and Pathology, University of Washington, Division of Medical Oncology, Department of Medicine, University of Washington, Clinical Research Division, Fred Hutchinson Cancer Research Center
– sequence: 2
  givenname: Lawrence A.
  surname: Loeb
  fullname: Loeb, Lawrence A.
  organization: Departments of Biochemistry and Pathology, University of Washington
– sequence: 3
  givenname: Jesse J.
  surname: Salk
  fullname: Salk, Jesse J.
  organization: Departments of Biochemistry and Pathology, University of Washington, Division of Medical Oncology, Department of Medicine, University of Washington, Clinical Research Division, Fred Hutchinson Cancer Research Center
BackLink https://www.ncbi.nlm.nih.gov/pubmed/26483300$$D View this record in MEDLINE/PubMed
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ContentType Journal Article
Copyright Springer Nature Limited 2015
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Copyright Nature Publishing Group Jun 2016
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Snippet Key Points All cancers probably contain an enormous number of coexisting subclonal mutations; in some cases, every possible mutation could exist in at least...
Clinical oncology is being revolutionized by the increasing use of molecularly targeted therapies. This paradigm holds great promise for improving cancer...
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692/699/67/1059/2326
692/699/67/1059/602
692/699/67/1857
692/700/565/1436/2185
Cancer
Care and treatment
Drug resistance
Drug Resistance, Neoplasm - genetics
ErbB Receptors - antagonists & inhibitors
Fusion Proteins, bcr-abl - antagonists & inhibitors
Gene mutations
Genes, erbB-1 - genetics
Genetic aspects
Health aspects
Humans
MAP Kinase Kinase Kinases - antagonists & inhibitors
MAP Kinase Kinase Kinases - genetics
MAP Kinase Signaling System - drug effects
Medicine & Public Health
Methods
Molecular targeted therapy
Molecular Targeted Therapy - methods
Mutation - drug effects
Mutation - genetics
Neoplasms - drug therapy
Neoplasms - genetics
Oncology
Protein-Tyrosine Kinases - antagonists & inhibitors
Proto-Oncogene Proteins B-raf - antagonists & inhibitors
Proto-Oncogene Proteins B-raf - genetics
Proto-Oncogene Proteins c-kit - antagonists & inhibitors
review-article
Title The influence of subclonal resistance mutations on targeted cancer therapy
URI https://link.springer.com/article/10.1038/nrclinonc.2015.175
https://www.ncbi.nlm.nih.gov/pubmed/26483300
https://www.proquest.com/docview/1790170456
https://www.proquest.com/docview/1790460695
https://pubmed.ncbi.nlm.nih.gov/PMC4838548
Volume 13
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