Pathogenesis of bone disease in multiple myeloma: from bench to bedside

Osteolytic bone disease is the hallmark of multiple myeloma, which deteriorates the quality of life of myeloma patients, and it affects dramatically their morbidity and mortality. The basis of the pathogenesis of myeloma-related bone disease is the uncoupling of the bone-remodeling process. The inte...

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Published inBlood cancer journal (New York) Vol. 8; no. 1; pp. 7 - 12
Main Authors Terpos, Evangelos, Ntanasis-Stathopoulos, Ioannis, Gavriatopoulou, Maria, Dimopoulos, Meletios A.
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 12.01.2018
Springer Nature B.V
Subjects
13
13/21
692/699/1541
692/699/67
96/1
Biomedical and Life Sciences
Biomedicine
Bone diseases
Cancer Research
Health risk assessment
Hematology
Multiple myeloma
Oncology
Pathogenesis
Review
Review Article
Online AccessGet full text
ISSN2044-5385
2044-5385
DOI10.1038/s41408-017-0037-4

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Abstract Osteolytic bone disease is the hallmark of multiple myeloma, which deteriorates the quality of life of myeloma patients, and it affects dramatically their morbidity and mortality. The basis of the pathogenesis of myeloma-related bone disease is the uncoupling of the bone-remodeling process. The interaction between myeloma cells and the bone microenvironment ultimately leads to the activation of osteoclasts and suppression of osteoblasts, resulting in bone loss. Several intracellular and intercellular signaling cascades, including RANK/RANKL/OPG, Notch, Wnt, and numerous chemokines and interleukins are implicated in this complex process. During the last years, osteocytes have emerged as key regulators of bone loss in myeloma through direct interactions with the myeloma cells. The myeloma-induced crosstalk among the molecular pathways establishes a positive feedback that sustains myeloma cell survival and continuous bone destruction, even when a plateau phase of the disease has been achieved. Targeted therapies, based on the better knowledge of the biology, constitute a promising approach in the management of myeloma-related bone disease and several novel agents are currently under investigation. Herein, we provide an insight into the underlying pathogenesis of bone disease and discuss possible directions for future studies.
AbstractList Osteolytic bone disease is the hallmark of multiple myeloma, which deteriorates the quality of life of myeloma patients, and it affects dramatically their morbidity and mortality. The basis of the pathogenesis of myeloma-related bone disease is the uncoupling of the bone-remodeling process. The interaction between myeloma cells and the bone microenvironment ultimately leads to the activation of osteoclasts and suppression of osteoblasts, resulting in bone loss. Several intracellular and intercellular signaling cascades, including RANK/RANKL/OPG, Notch, Wnt, and numerous chemokines and interleukins are implicated in this complex process. During the last years, osteocytes have emerged as key regulators of bone loss in myeloma through direct interactions with the myeloma cells. The myeloma-induced crosstalk among the molecular pathways establishes a positive feedback that sustains myeloma cell survival and continuous bone destruction, even when a plateau phase of the disease has been achieved. Targeted therapies, based on the better knowledge of the biology, constitute a promising approach in the management of myeloma-related bone disease and several novel agents are currently under investigation. Herein, we provide an insight into the underlying pathogenesis of bone disease and discuss possible directions for future studies.
Osteolytic bone disease is the hallmark of multiple myeloma, which deteriorates the quality of life of myeloma patients, and it affects dramatically their morbidity and mortality. The basis of the pathogenesis of myeloma-related bone disease is the uncoupling of the bone-remodeling process. The interaction between myeloma cells and the bone microenvironment ultimately leads to the activation of osteoclasts and suppression of osteoblasts, resulting in bone loss. Several intracellular and intercellular signaling cascades, including RANK/RANKL/OPG, Notch, Wnt, and numerous chemokines and interleukins are implicated in this complex process. During the last years, osteocytes have emerged as key regulators of bone loss in myeloma through direct interactions with the myeloma cells. The myeloma-induced crosstalk among the molecular pathways establishes a positive feedback that sustains myeloma cell survival and continuous bone destruction, even when a plateau phase of the disease has been achieved. Targeted therapies, based on the better knowledge of the biology, constitute a promising approach in the management of myeloma-related bone disease and several novel agents are currently under investigation. Herein, we provide an insight into the underlying pathogenesis of bone disease and discuss possible directions for future studies.Osteolytic bone disease is the hallmark of multiple myeloma, which deteriorates the quality of life of myeloma patients, and it affects dramatically their morbidity and mortality. The basis of the pathogenesis of myeloma-related bone disease is the uncoupling of the bone-remodeling process. The interaction between myeloma cells and the bone microenvironment ultimately leads to the activation of osteoclasts and suppression of osteoblasts, resulting in bone loss. Several intracellular and intercellular signaling cascades, including RANK/RANKL/OPG, Notch, Wnt, and numerous chemokines and interleukins are implicated in this complex process. During the last years, osteocytes have emerged as key regulators of bone loss in myeloma through direct interactions with the myeloma cells. The myeloma-induced crosstalk among the molecular pathways establishes a positive feedback that sustains myeloma cell survival and continuous bone destruction, even when a plateau phase of the disease has been achieved. Targeted therapies, based on the better knowledge of the biology, constitute a promising approach in the management of myeloma-related bone disease and several novel agents are currently under investigation. Herein, we provide an insight into the underlying pathogenesis of bone disease and discuss possible directions for future studies.
ArticleNumber 7
Author Gavriatopoulou, Maria
Dimopoulos, Meletios A.
Ntanasis-Stathopoulos, Ioannis
Terpos, Evangelos
Author_xml – sequence: 1
  givenname: Evangelos
  surname: Terpos
  fullname: Terpos, Evangelos
  email: eterpos@med.uoa.gr
  organization: Department of Clinical Therapeutics, National and Kapodistrian University of Athens, School of Medicine
– sequence: 2
  givenname: Ioannis
  surname: Ntanasis-Stathopoulos
  fullname: Ntanasis-Stathopoulos, Ioannis
  organization: Department of Clinical Therapeutics, National and Kapodistrian University of Athens, School of Medicine
– sequence: 3
  givenname: Maria
  surname: Gavriatopoulou
  fullname: Gavriatopoulou, Maria
  organization: Department of Clinical Therapeutics, National and Kapodistrian University of Athens, School of Medicine
– sequence: 4
  givenname: Meletios A.
  surname: Dimopoulos
  fullname: Dimopoulos, Meletios A.
  organization: Department of Clinical Therapeutics, National and Kapodistrian University of Athens, School of Medicine
BackLink https://www.ncbi.nlm.nih.gov/pubmed/29330358$$D View this record in MEDLINE/PubMed
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Snippet Osteolytic bone disease is the hallmark of multiple myeloma, which deteriorates the quality of life of myeloma patients, and it affects dramatically their...
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Cancer Research
Health risk assessment
Hematology
Multiple myeloma
Oncology
Pathogenesis
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Title Pathogenesis of bone disease in multiple myeloma: from bench to bedside
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https://www.ncbi.nlm.nih.gov/pubmed/29330358
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