Tyrosine kinase inhibitors in pulmonary arterial hypertension: a double-edge sword?

Laurent Godinas; Christophe Guignabert; Andrei Seferian; Frederic Perros; Emmanuel Bergot; Yves Sibille; Marc Humbert; David Montani

doi:10.1055/s-0033-1356494

Tyrosine kinase inhibitors in pulmonary arterial hypertension: a double-edge sword?

Semin Respir Crit Care Med. 2013 Oct;34(5):714-24. doi: 10.1055/s-0033-1356494. Epub 2013 Sep 13.

Authors

Laurent Godinas¹, Christophe Guignabert, Andrei Seferian, Frederic Perros, Emmanuel Bergot, Yves Sibille, Marc Humbert, David Montani

Affiliation

¹ Pulmonary Section, Cliniques Universitaires de Mont-Godinne, University of Louvain, Yvoir, Belgium.

PMID: 24037637
DOI: 10.1055/s-0033-1356494

Abstract

New treatments for pulmonary arterial hypertension (PAH) are a crucial need. The increased proliferation, migration, and survival of pulmonary vascular cells within the pulmonary artery wall in PAH have allowed successful transposition of pathophysiological elements from oncologic researches. Next steps will require translation of these biological advances in PAH therapeutic arsenal and guidelines. This review synthesizes recent data concerning the role of receptor tyrosine kinases and their inhibitors in PAH, with implications in animal models and humans. Results of clinical trials are now accumulating to establish beneficial role of tyrosine kinase inhibitors (TKIs) in PAH and further findings are expected in the near future. Beside this curative approach, evidences of a possible TKI-induced cardiotoxicity are emerging. These safety issues raise concern about a potential amplified harmful effect in PAH, a pathology characterized by an underlying cardiac dysfunction. In addition, analyses of PAH registries shed light on a selective pulmonary vascular toxicity triggered by TKIs, especially dasatinib. These possible dual effects of the TKIs in PAH need to be taken in account for future pharmacological development of this therapeutic class in PAH.

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Publication types

Review

MeSH terms

Apoptosis / physiology
Benzamides / therapeutic use
Cell Proliferation
Dasatinib
Endothelial Cells
ErbB Receptors / metabolism
Familial Primary Pulmonary Hypertension
Fibroblast Growth Factor 2 / metabolism
Fibroblasts
Humans
Hypertension, Pulmonary / chemically induced
Hypertension, Pulmonary / drug therapy*
Hypertension, Pulmonary / metabolism
Imatinib Mesylate
Muscle, Smooth, Vascular / metabolism
Myocytes, Smooth Muscle
Niacinamide / analogs & derivatives
Niacinamide / therapeutic use
Phenylurea Compounds / therapeutic use
Piperazines / therapeutic use
Platelet-Derived Growth Factor / metabolism
Protein Kinase Inhibitors / adverse effects
Protein Kinase Inhibitors / therapeutic use*
Protein-Tyrosine Kinases / antagonists & inhibitors*
Proto-Oncogene Proteins c-kit / metabolism
Pulmonary Circulation
Pyrimidines / adverse effects
Pyrimidines / therapeutic use
Receptor Protein-Tyrosine Kinases / metabolism*
Sorafenib
Thiazoles / adverse effects
Treatment Outcome
Vascular Endothelial Growth Factor A / metabolism
src-Family Kinases / metabolism

Substances

Benzamides
Phenylurea Compounds
Piperazines
Platelet-Derived Growth Factor
Protein Kinase Inhibitors
Pyrimidines
Thiazoles
Vascular Endothelial Growth Factor A
Fibroblast Growth Factor 2
Niacinamide
Imatinib Mesylate
Sorafenib
ErbB Receptors
Protein-Tyrosine Kinases
Proto-Oncogene Proteins c-kit
Receptor Protein-Tyrosine Kinases
src-Family Kinases
nilotinib
Dasatinib