Nasim, Md Talat, Ogo, Takeshi, Ahmed, Mohammad , Randall, Rebecca, Chowdhury, Hasnin M., Snape, Katie M., Bradshaw, Teisha Y., Southgate, Laura, Lee, Grace J., Jackson, Ian, Lord, Graham M., Gibbs, J. Simon R., Wilkins, Martin R., Ohta-Ogo, Keiko, Nakamura, Kazufumi, Girerd, Barbara, Coulet, Florence, Soubrier, Florent, Humbert, Marc, Morrell, Nicholas W., Trembath, Richard C. and Machado, Rajiv D. (2011) Molecular genetic characterization of SMAD signaling molecules in pulmonary arterial hypertension. Human Mutation, 32 (12). pp. 1385-1389. ISSN 1059-7794
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| Item Type: | Article |
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| Item Status: | Live Archive |
Abstract
Heterozygous germline mutations of BMPR2 contribute to familial clustering of pulmonary arterial hypertension (PAH). To further explore the genetic basis of PAH in isolated cases, we undertook a candidate gene analysis to identify potentially deleterious variation. Members of the bone morphogenetic protein (BMP) pathway, namely SMAD1, SMAD4, SMAD5, and SMAD9, were screened by direct sequencing for gene defects. Four variants were identified in SMADs 1, 4, and 9 among a cohort of 324 PAH cases, each not detected in a substantial control population. Of three amino acid substitutions identified, two demonstrated reduced signaling activity in vitro. A putative splice site mutation in SMAD4 resulted in moderate transcript loss due to compromised splicing efficiency. These results demonstrate the role of BMPR2 mutation in the pathogenesis of PAH and indicate that variation within the SMAD family represents an infrequent cause of the disease.
| Additional Information: | Heterozygous germline mutations of BMPR2 contribute to familial clustering of pulmonary arterial hypertension (PAH). To further explore the genetic basis of PAH in isolated cases, we undertook a candidate gene analysis to identify potentially deleterious variation. Members of the bone morphogenetic protein (BMP) pathway, namely SMAD1, SMAD4, SMAD5, and SMAD9, were screened by direct sequencing for gene defects. Four variants were identified in SMADs 1, 4, and 9 among a cohort of 324 PAH cases, each not detected in a substantial control population. Of three amino acid substitutions identified, two demonstrated reduced signaling activity in vitro. A putative splice site mutation in SMAD4 resulted in moderate transcript loss due to compromised splicing efficiency. These results demonstrate the role of BMPR2 mutation in the pathogenesis of PAH and indicate that variation within the SMAD family represents an infrequent cause of the disease. |
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| Keywords: | Pulmonary arterial hypertension, BMP pathway, SMAD genes |
| Subjects: | C Biological Sciences > C440 Molecular Genetics |
| Divisions: | College of Science > School of Life Sciences |
| ID Code: | 6310 |
| Deposited On: | 11 Oct 2012 06:22 |
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