Your search keyword '"Machado, Rajiv"' showing total 35 results

1. Genetic determinants of risk in pulmonary arterial hypertension: international genome-wide association studies and meta-analysis.

Author

Rhodes, Christopher J, Rhodes, Christopher J, Batai, Ken, Bleda, Marta, Haimel, Matthias, Southgate, Laura, Germain, Marine, Pauciulo, Michael W, Hadinnapola, Charaka, Aman, Jurjan, Girerd, Barbara, Arora, Amit, Knight, Jo, Hanscombe, Ken B, Karnes, Jason H, Kaakinen, Marika, Gall, Henning, Ulrich, Anna, Harbaum, Lars, Cebola, Inês, Ferrer, Jorge, Lutz, Katie, Swietlik, Emilia M, Ahmad, Ferhaan, Amouyel, Philippe, Archer, Stephen L, Argula, Rahul, Austin, Eric D, Badesch, David, Bakshi, Sahil, Barnett, Christopher, Benza, Raymond, Bhatt, Nitin, Bogaard, Harm J, Burger, Charles D, Chakinala, Murali, Church, Colin, Coghlan, John G, Condliffe, Robin, Corris, Paul A, Danesino, Cesare, Debette, Stéphanie, Elliott, C Gregory, Elwing, Jean, Eyries, Melanie, Fortin, Terry, Franke, Andre, Frantz, Robert P, Frost, Adaani, Garcia, Joe GN, Ghio, Stefano, Ghofrani, Hossein-Ardeschir, Gibbs, J Simon R, Harley, John, He, Hua, Hill, Nicholas S, Hirsch, Russel, Houweling, Arjan C, Howard, Luke S, Ivy, Dunbar, Kiely, David G, Klinger, James, Kovacs, Gabor, Lahm, Tim, Laudes, Matthias, Machado, Rajiv D, MacKenzie Ross, Robert V, Marsolo, Keith, Martin, Lisa J, Moledina, Shahin, Montani, David, Nathan, Steven D, Newnham, Michael, Olschewski, Andrea, Olschewski, Horst, Oudiz, Ronald J, Ouwehand, Willem H, Peacock, Andrew J, Pepke-Zaba, Joanna, Rehman, Zia, Robbins, Ivan, Roden, Dan M, Rosenzweig, Erika B, Saydain, Ghulam, Scelsi, Laura, Schilz, Robert, Seeger, Werner, Shaffer, Christian M, Simms, Robert W, Simon, Marc, Sitbon, Olivier, Suntharalingam, Jay, Tang, Haiyang, Tchourbanov, Alexander Y, Thenappan, Thenappan, Torres, Fernando, Toshner, Mark R, Treacy, Carmen M, Vonk Noordegraaf, Anton, Waisfisz, Quinten, Walsworth, Anna K, Rhodes, Christopher J, Rhodes, Christopher J, Batai, Ken, Bleda, Marta, Haimel, Matthias, Southgate, Laura, Germain, Marine, Pauciulo, Michael W, Hadinnapola, Charaka, Aman, Jurjan, Girerd, Barbara, Arora, Amit, Knight, Jo, Hanscombe, Ken B, Karnes, Jason H, Kaakinen, Marika, Gall, Henning, Ulrich, Anna, Harbaum, Lars, Cebola, Inês, Ferrer, Jorge, Lutz, Katie, Swietlik, Emilia M, Ahmad, Ferhaan, Amouyel, Philippe, Archer, Stephen L, Argula, Rahul, Austin, Eric D, Badesch, David, Bakshi, Sahil, Barnett, Christopher, Benza, Raymond, Bhatt, Nitin, Bogaard, Harm J, Burger, Charles D, Chakinala, Murali, Church, Colin, Coghlan, John G, Condliffe, Robin, Corris, Paul A, Danesino, Cesare, Debette, Stéphanie, Elliott, C Gregory, Elwing, Jean, Eyries, Melanie, Fortin, Terry, Franke, Andre, Frantz, Robert P, Frost, Adaani, Garcia, Joe GN, Ghio, Stefano, Ghofrani, Hossein-Ardeschir, Gibbs, J Simon R, Harley, John, He, Hua, Hill, Nicholas S, Hirsch, Russel, Houweling, Arjan C, Howard, Luke S, Ivy, Dunbar, Kiely, David G, Klinger, James, Kovacs, Gabor, Lahm, Tim, Laudes, Matthias, Machado, Rajiv D, MacKenzie Ross, Robert V, Marsolo, Keith, Martin, Lisa J, Moledina, Shahin, Montani, David, Nathan, Steven D, Newnham, Michael, Olschewski, Andrea, Olschewski, Horst, Oudiz, Ronald J, Ouwehand, Willem H, Peacock, Andrew J, Pepke-Zaba, Joanna, Rehman, Zia, Robbins, Ivan, Roden, Dan M, Rosenzweig, Erika B, Saydain, Ghulam, Scelsi, Laura, Schilz, Robert, Seeger, Werner, Shaffer, Christian M, Simms, Robert W, Simon, Marc, Sitbon, Olivier, Suntharalingam, Jay, Tang, Haiyang, Tchourbanov, Alexander Y, Thenappan, Thenappan, Torres, Fernando, Toshner, Mark R, Treacy, Carmen M, Vonk Noordegraaf, Anton, Waisfisz, Quinten, and Walsworth, Anna K

Abstract

BackgroundRare genetic variants cause pulmonary arterial hypertension, but the contribution of common genetic variation to disease risk and natural history is poorly characterised. We tested for genome-wide association for pulmonary arterial hypertension in large international cohorts and assessed the contribution of associated regions to outcomes.MethodsWe did two separate genome-wide association studies (GWAS) and a meta-analysis of pulmonary arterial hypertension. These GWAS used data from four international case-control studies across 11 744 individuals with European ancestry (including 2085 patients). One GWAS used genotypes from 5895 whole-genome sequences and the other GWAS used genotyping array data from an additional 5849 individuals. Cross-validation of loci reaching genome-wide significance was sought by meta-analysis. Conditional analysis corrected for the most significant variants at each locus was used to resolve signals for multiple associations. We functionally annotated associated variants and tested associations with duration of survival. All-cause mortality was the primary endpoint in survival analyses.FindingsA locus near SOX17 (rs10103692, odds ratio 1·80 [95% CI 1·55-2·08], p=5·13 × 10-15) and a second locus in HLA-DPA1 and HLA-DPB1 (collectively referred to as HLA-DPA1/DPB1 here; rs2856830, 1·56 [1·42-1·71], p=7·65 × 10-20) within the class II MHC region were associated with pulmonary arterial hypertension. The SOX17 locus had two independent signals associated with pulmonary arterial hypertension (rs13266183, 1·36 [1·25-1·48], p=1·69 × 10-12; and rs10103692). Functional and epigenomic data indicate that the risk variants near SOX17 alter gene regulation via an enhancer active in endothelial cells. Pulmonary arterial hypertension risk variants determined haplotype-specific enhancer activity, and CRISPR-mediated inhibition of the enhancer reduced SOX17 expression. The HLA-DPA1/DPB1 rs2856830 genotype was strongly associated with survival. Media

Published

2019

2. Genetic determinants of risk in pulmonary arterial hypertension: international genome-wide association studies and meta-analysis.

Author

Rhodes, Christopher J, Rhodes, Christopher J, Batai, Ken, Bleda, Marta, Haimel, Matthias, Southgate, Laura, Germain, Marine, Pauciulo, Michael W, Hadinnapola, Charaka, Aman, Jurjan, Girerd, Barbara, Arora, Amit, Knight, Jo, Hanscombe, Ken B, Karnes, Jason H, Kaakinen, Marika, Gall, Henning, Ulrich, Anna, Harbaum, Lars, Cebola, Inês, Ferrer, Jorge, Lutz, Katie, Swietlik, Emilia M, Ahmad, Ferhaan, Amouyel, Philippe, Archer, Stephen L, Argula, Rahul, Austin, Eric D, Badesch, David, Bakshi, Sahil, Barnett, Christopher, Benza, Raymond, Bhatt, Nitin, Bogaard, Harm J, Burger, Charles D, Chakinala, Murali, Church, Colin, Coghlan, John G, Condliffe, Robin, Corris, Paul A, Danesino, Cesare, Debette, Stéphanie, Elliott, C Gregory, Elwing, Jean, Eyries, Melanie, Fortin, Terry, Franke, Andre, Frantz, Robert P, Frost, Adaani, Garcia, Joe GN, Ghio, Stefano, Ghofrani, Hossein-Ardeschir, Gibbs, J Simon R, Harley, John, He, Hua, Hill, Nicholas S, Hirsch, Russel, Houweling, Arjan C, Howard, Luke S, Ivy, Dunbar, Kiely, David G, Klinger, James, Kovacs, Gabor, Lahm, Tim, Laudes, Matthias, Machado, Rajiv D, MacKenzie Ross, Robert V, Marsolo, Keith, Martin, Lisa J, Moledina, Shahin, Montani, David, Nathan, Steven D, Newnham, Michael, Olschewski, Andrea, Olschewski, Horst, Oudiz, Ronald J, Ouwehand, Willem H, Peacock, Andrew J, Pepke-Zaba, Joanna, Rehman, Zia, Robbins, Ivan, Roden, Dan M, Rosenzweig, Erika B, Saydain, Ghulam, Scelsi, Laura, Schilz, Robert, Seeger, Werner, Shaffer, Christian M, Simms, Robert W, Simon, Marc, Sitbon, Olivier, Suntharalingam, Jay, Tang, Haiyang, Tchourbanov, Alexander Y, Thenappan, Thenappan, Torres, Fernando, Toshner, Mark R, Treacy, Carmen M, Vonk Noordegraaf, Anton, Waisfisz, Quinten, Walsworth, Anna K, Rhodes, Christopher J, Rhodes, Christopher J, Batai, Ken, Bleda, Marta, Haimel, Matthias, Southgate, Laura, Germain, Marine, Pauciulo, Michael W, Hadinnapola, Charaka, Aman, Jurjan, Girerd, Barbara, Arora, Amit, Knight, Jo, Hanscombe, Ken B, Karnes, Jason H, Kaakinen, Marika, Gall, Henning, Ulrich, Anna, Harbaum, Lars, Cebola, Inês, Ferrer, Jorge, Lutz, Katie, Swietlik, Emilia M, Ahmad, Ferhaan, Amouyel, Philippe, Archer, Stephen L, Argula, Rahul, Austin, Eric D, Badesch, David, Bakshi, Sahil, Barnett, Christopher, Benza, Raymond, Bhatt, Nitin, Bogaard, Harm J, Burger, Charles D, Chakinala, Murali, Church, Colin, Coghlan, John G, Condliffe, Robin, Corris, Paul A, Danesino, Cesare, Debette, Stéphanie, Elliott, C Gregory, Elwing, Jean, Eyries, Melanie, Fortin, Terry, Franke, Andre, Frantz, Robert P, Frost, Adaani, Garcia, Joe GN, Ghio, Stefano, Ghofrani, Hossein-Ardeschir, Gibbs, J Simon R, Harley, John, He, Hua, Hill, Nicholas S, Hirsch, Russel, Houweling, Arjan C, Howard, Luke S, Ivy, Dunbar, Kiely, David G, Klinger, James, Kovacs, Gabor, Lahm, Tim, Laudes, Matthias, Machado, Rajiv D, MacKenzie Ross, Robert V, Marsolo, Keith, Martin, Lisa J, Moledina, Shahin, Montani, David, Nathan, Steven D, Newnham, Michael, Olschewski, Andrea, Olschewski, Horst, Oudiz, Ronald J, Ouwehand, Willem H, Peacock, Andrew J, Pepke-Zaba, Joanna, Rehman, Zia, Robbins, Ivan, Roden, Dan M, Rosenzweig, Erika B, Saydain, Ghulam, Scelsi, Laura, Schilz, Robert, Seeger, Werner, Shaffer, Christian M, Simms, Robert W, Simon, Marc, Sitbon, Olivier, Suntharalingam, Jay, Tang, Haiyang, Tchourbanov, Alexander Y, Thenappan, Thenappan, Torres, Fernando, Toshner, Mark R, Treacy, Carmen M, Vonk Noordegraaf, Anton, Waisfisz, Quinten, and Walsworth, Anna K

Abstract

BackgroundRare genetic variants cause pulmonary arterial hypertension, but the contribution of common genetic variation to disease risk and natural history is poorly characterised. We tested for genome-wide association for pulmonary arterial hypertension in large international cohorts and assessed the contribution of associated regions to outcomes.MethodsWe did two separate genome-wide association studies (GWAS) and a meta-analysis of pulmonary arterial hypertension. These GWAS used data from four international case-control studies across 11 744 individuals with European ancestry (including 2085 patients). One GWAS used genotypes from 5895 whole-genome sequences and the other GWAS used genotyping array data from an additional 5849 individuals. Cross-validation of loci reaching genome-wide significance was sought by meta-analysis. Conditional analysis corrected for the most significant variants at each locus was used to resolve signals for multiple associations. We functionally annotated associated variants and tested associations with duration of survival. All-cause mortality was the primary endpoint in survival analyses.FindingsA locus near SOX17 (rs10103692, odds ratio 1·80 [95% CI 1·55-2·08], p=5·13 × 10-15) and a second locus in HLA-DPA1 and HLA-DPB1 (collectively referred to as HLA-DPA1/DPB1 here; rs2856830, 1·56 [1·42-1·71], p=7·65 × 10-20) within the class II MHC region were associated with pulmonary arterial hypertension. The SOX17 locus had two independent signals associated with pulmonary arterial hypertension (rs13266183, 1·36 [1·25-1·48], p=1·69 × 10-12; and rs10103692). Functional and epigenomic data indicate that the risk variants near SOX17 alter gene regulation via an enhancer active in endothelial cells. Pulmonary arterial hypertension risk variants determined haplotype-specific enhancer activity, and CRISPR-mediated inhibition of the enhancer reduced SOX17 expression. The HLA-DPA1/DPB1 rs2856830 genotype was strongly associated with survival. Media

Published

2019

3. Identification of rare sequence variation underlying heritable pulmonary arterial hypertension

Author

Gräf, Stefan, Gräf, Stefan, Haimel, Matthias, Bleda, Marta, Hadinnapola, Charaka, Southgate, Laura, Li, Wei, Hodgson, Joshua, Liu, Bin, Salmon, Richard M, Southwood, Mark, Machado, Rajiv D, Martin, Jennifer M, Treacy, Carmen M, Yates, Katherine, Daugherty, Louise C, Shamardina, Olga, Whitehorn, Deborah, Holden, Simon, Aldred, Micheala, Bogaard, Harm J, Church, Colin, Coghlan, Gerry, Condliffe, Robin, Corris, Paul A, Danesino, Cesare, Eyries, Mélanie, Gall, Henning, Ghio, Stefano, Ghofrani, Hossein-Ardeschir, Gibbs, J Simon R, Girerd, Barbara, Houweling, Arjan C, Howard, Luke, Humbert, Marc, Kiely, David G, Kovacs, Gabor, MacKenzie Ross, Robert V, Moledina, Shahin, Montani, David, Newnham, Michael, Olschewski, Andrea, Olschewski, Horst, Peacock, Andrew J, Pepke-Zaba, Joanna, Prokopenko, Inga, Rhodes, Christopher J, Scelsi, Laura, Seeger, Werner, Soubrier, Florent, Stein, Dan F, Suntharalingam, Jay, Swietlik, Emilia M, Toshner, Mark R, van Heel, David A, Vonk Noordegraaf, Anton, Waisfisz, Quinten, Wharton, John, Wort, Stephen J, Ouwehand, Willem H, Soranzo, Nicole, Lawrie, Allan, Upton, Paul D, Wilkins, Martin R, Trembath, Richard C, Morrell, Nicholas W, Gräf, Stefan, Gräf, Stefan, Haimel, Matthias, Bleda, Marta, Hadinnapola, Charaka, Southgate, Laura, Li, Wei, Hodgson, Joshua, Liu, Bin, Salmon, Richard M, Southwood, Mark, Machado, Rajiv D, Martin, Jennifer M, Treacy, Carmen M, Yates, Katherine, Daugherty, Louise C, Shamardina, Olga, Whitehorn, Deborah, Holden, Simon, Aldred, Micheala, Bogaard, Harm J, Church, Colin, Coghlan, Gerry, Condliffe, Robin, Corris, Paul A, Danesino, Cesare, Eyries, Mélanie, Gall, Henning, Ghio, Stefano, Ghofrani, Hossein-Ardeschir, Gibbs, J Simon R, Girerd, Barbara, Houweling, Arjan C, Howard, Luke, Humbert, Marc, Kiely, David G, Kovacs, Gabor, MacKenzie Ross, Robert V, Moledina, Shahin, Montani, David, Newnham, Michael, Olschewski, Andrea, Olschewski, Horst, Peacock, Andrew J, Pepke-Zaba, Joanna, Prokopenko, Inga, Rhodes, Christopher J, Scelsi, Laura, Seeger, Werner, Soubrier, Florent, Stein, Dan F, Suntharalingam, Jay, Swietlik, Emilia M, Toshner, Mark R, van Heel, David A, Vonk Noordegraaf, Anton, Waisfisz, Quinten, Wharton, John, Wort, Stephen J, Ouwehand, Willem H, Soranzo, Nicole, Lawrie, Allan, Upton, Paul D, Wilkins, Martin R, Trembath, Richard C, and Morrell, Nicholas W

Published

2018

4. Stress doppler echocardiography in relatives of patients with idiopathic and familial pulmonary arterial hypertension results of a multicenter european analysis of pulmonary artery pressure response to exercise and hypoxia

Author

Grünig, Ekkehard, Weissmann, Sylvia, Ehlken, Nicola, Fijalkowska, Anna, Fischer, Christine, Fourme, Thierry, Galie, Nazzareno, Ghofrani, Ardeschir, Harrison, Rachel E, Huez, Sandrine, Humbert, Marc, Janssen, Bart, Kober, Jaroslaw, Koehler, Rolf, Machado, Rajiv D, Mereles, Derliz, Naeije, Robert, Olschewski, Horst, Provencher, Steeve, Reichenberger, Frank, Retailleau, Kathleen, Rocchi, Guido, Simonneau, Gerald, Torbicki, Adam, Trembath, Richard C, Seeger, Werner, Grünig, Ekkehard, Weissmann, Sylvia, Ehlken, Nicola, Fijalkowska, Anna, Fischer, Christine, Fourme, Thierry, Galie, Nazzareno, Ghofrani, Ardeschir, Harrison, Rachel E, Huez, Sandrine, Humbert, Marc, Janssen, Bart, Kober, Jaroslaw, Koehler, Rolf, Machado, Rajiv D, Mereles, Derliz, Naeije, Robert, Olschewski, Horst, Provencher, Steeve, Reichenberger, Frank, Retailleau, Kathleen, Rocchi, Guido, Simonneau, Gerald, Torbicki, Adam, Trembath, Richard C, and Seeger, Werner

Abstract

SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2009

5. Stress doppler echocardiography in relatives of patients with idiopathic and familial pulmonary arterial hypertension results of a multicenter european analysis of pulmonary artery pressure response to exercise and hypoxia

Author

Grünig, Ekkehard, Weissmann, Sylvia, Ehlken, Nicola, Fijalkowska, Anna, Fischer, Christine, Fourme, Thierry, Galie, Nazzareno, Ghofrani, Ardeschir, Harrison, Rachel E, Huez, Sandrine, Humbert, Marc, Janssen, Bart, Kober, Jaroslaw, Koehler, Rolf, Machado, Rajiv D, Mereles, Derliz, Naeije, Robert, Olschewski, Horst, Provencher, Steeve, Reichenberger, Frank, Retailleau, Kathleen, Rocchi, Guido, Simonneau, Gerald, Torbicki, Adam, Trembath, Richard C, Seeger, Werner, Grünig, Ekkehard, Weissmann, Sylvia, Ehlken, Nicola, Fijalkowska, Anna, Fischer, Christine, Fourme, Thierry, Galie, Nazzareno, Ghofrani, Ardeschir, Harrison, Rachel E, Huez, Sandrine, Humbert, Marc, Janssen, Bart, Kober, Jaroslaw, Koehler, Rolf, Machado, Rajiv D, Mereles, Derliz, Naeije, Robert, Olschewski, Horst, Provencher, Steeve, Reichenberger, Frank, Retailleau, Kathleen, Rocchi, Guido, Simonneau, Gerald, Torbicki, Adam, Trembath, Richard C, and Seeger, Werner

Abstract

SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2009

6. Mutations of the TGF-beta type II receptor BMPR2 in pulmonary arterial hypertension.

Author

Machado, Rajiv D, Aldred, Micheala A, James, Victoria, Harrison, Rachel E, Patel, Bhakti, Schwalbe, Edward C, Gruenig, Ekkehard, Janssen, Bart, Koehler, Rolf, Seeger, Werner, Eickelberg, Oliver, Olschewski, Horst, Elliott, C Gregory, Glissmeyer, Eric, Carlquist, John, Kim, Miryoung, Torbicki, Adam, Fijalkowska, Anna, Szewczyk, Grzegorz, Parma, Jasmine, Abramowicz, Marc, Galie, Nazzareno, Morisaki, Hiroko, Kyotani, Shingo, Nakanishi, Norifumi, Morisaki, Takayuki, Humbert, Marc, Simonneau, Gerald, Sitbon, Olivier, Soubrier, Florent, Coulet, Florence, Morrell, Nicholas W, Trembath, Richard C, Machado, Rajiv D, Aldred, Micheala A, James, Victoria, Harrison, Rachel E, Patel, Bhakti, Schwalbe, Edward C, Gruenig, Ekkehard, Janssen, Bart, Koehler, Rolf, Seeger, Werner, Eickelberg, Oliver, Olschewski, Horst, Elliott, C Gregory, Glissmeyer, Eric, Carlquist, John, Kim, Miryoung, Torbicki, Adam, Fijalkowska, Anna, Szewczyk, Grzegorz, Parma, Jasmine, Abramowicz, Marc, Galie, Nazzareno, Morisaki, Hiroko, Kyotani, Shingo, Nakanishi, Norifumi, Morisaki, Takayuki, Humbert, Marc, Simonneau, Gerald, Sitbon, Olivier, Soubrier, Florent, Coulet, Florence, Morrell, Nicholas W, and Trembath, Richard C

Abstract

Pulmonary arterial hypertension (PAH) is clinically characterized by a sustained elevation in mean pulmonary artery pressure leading to significant morbidity and mortality. The disorder is typically sporadic, and in such cases the term idiopathic PAH (IPAH) is used. However, cases that occur within families (familial PAH (FPAH)) display similar clinical and histopathological features, suggesting a common etiology. Heterozygous mutations of a type II member of the TGF-beta cell signaling superfamily known as BMPR2 on chromosome 2q33 have been identified in many kindreds with FPAH, yet display both reduced penetrance and sex bias. This report presents the compilation of data for 144 distinct mutations that alter the coding sequence of the BMPR2 gene identified in 210 independent PAH subjects. This large data set characterizes the extent of sequence variation and reveals that the majority (71%) of mutations in FPAH and IPAH comprise nonsense, frameshift, and splice-site defects, and gene rearrangements. These predict premature termination of the transcript with likely loss through the process of nonsense-mediated decay (NMD). A total of 44 missense mutations were identified that substitute amino acid residues at highly conserved sites within recognized functional domains of the mature receptor. We assess this category of mutations in the context of their heterogeneous effects on cell signaling when assayed by in vitro cell-based systems. Disease-causing mutation hot-spots within BMPR2 are summarized. Taken together, these observations are likely to aid in the development of targeted mutation detection strategies relevant for patient management. Finally, we examine the age- and sex-dependent reduced penetrance of BMPR2 mutations by reviewing bmpr2 animal models and the requirement for additional genetic and/or environmental modifiers of disease. In conclusion, these data provide compelling genetic evidence that haploinsufficiency is the predominant molecular mechanism u, Journal Article, Research Support, Non-U.S. Gov't, SCOPUS: re.j, FLWIN, info:eu-repo/semantics/published

Published

2006

7. Mutations of the TGF-beta type II receptor BMPR2 in pulmonary arterial hypertension.

Author

Machado, Rajiv D, Aldred, Micheala A, James, Victoria, Harrison, Rachel E, Patel, Bhakti, Schwalbe, Edward C, Gruenig, Ekkehard, Janssen, Bart, Koehler, Rolf, Seeger, Werner, Eickelberg, Oliver, Olschewski, Horst, Elliott, C Gregory, Glissmeyer, Eric, Carlquist, John, Kim, Miryoung, Torbicki, Adam, Fijalkowska, Anna, Szewczyk, Grzegorz, Parma, Jasmine, Abramowicz, Marc, Galie, Nazzareno, Morisaki, Hiroko, Kyotani, Shingo, Nakanishi, Norifumi, Morisaki, Takayuki, Humbert, Marc, Simonneau, Gerald, Sitbon, Olivier, Soubrier, Florent, Coulet, Florence, Morrell, Nicholas W, Trembath, Richard C, Machado, Rajiv D, Aldred, Micheala A, James, Victoria, Harrison, Rachel E, Patel, Bhakti, Schwalbe, Edward C, Gruenig, Ekkehard, Janssen, Bart, Koehler, Rolf, Seeger, Werner, Eickelberg, Oliver, Olschewski, Horst, Elliott, C Gregory, Glissmeyer, Eric, Carlquist, John, Kim, Miryoung, Torbicki, Adam, Fijalkowska, Anna, Szewczyk, Grzegorz, Parma, Jasmine, Abramowicz, Marc, Galie, Nazzareno, Morisaki, Hiroko, Kyotani, Shingo, Nakanishi, Norifumi, Morisaki, Takayuki, Humbert, Marc, Simonneau, Gerald, Sitbon, Olivier, Soubrier, Florent, Coulet, Florence, Morrell, Nicholas W, and Trembath, Richard C

Abstract

Pulmonary arterial hypertension (PAH) is clinically characterized by a sustained elevation in mean pulmonary artery pressure leading to significant morbidity and mortality. The disorder is typically sporadic, and in such cases the term idiopathic PAH (IPAH) is used. However, cases that occur within families (familial PAH (FPAH)) display similar clinical and histopathological features, suggesting a common etiology. Heterozygous mutations of a type II member of the TGF-beta cell signaling superfamily known as BMPR2 on chromosome 2q33 have been identified in many kindreds with FPAH, yet display both reduced penetrance and sex bias. This report presents the compilation of data for 144 distinct mutations that alter the coding sequence of the BMPR2 gene identified in 210 independent PAH subjects. This large data set characterizes the extent of sequence variation and reveals that the majority (71%) of mutations in FPAH and IPAH comprise nonsense, frameshift, and splice-site defects, and gene rearrangements. These predict premature termination of the transcript with likely loss through the process of nonsense-mediated decay (NMD). A total of 44 missense mutations were identified that substitute amino acid residues at highly conserved sites within recognized functional domains of the mature receptor. We assess this category of mutations in the context of their heterogeneous effects on cell signaling when assayed by in vitro cell-based systems. Disease-causing mutation hot-spots within BMPR2 are summarized. Taken together, these observations are likely to aid in the development of targeted mutation detection strategies relevant for patient management. Finally, we examine the age- and sex-dependent reduced penetrance of BMPR2 mutations by reviewing bmpr2 animal models and the requirement for additional genetic and/or environmental modifiers of disease. In conclusion, these data provide compelling genetic evidence that haploinsufficiency is the predominant molecular mechanism u, Journal Article, Research Support, Non-U.S. Gov't, SCOPUS: re.j, FLWIN, info:eu-repo/semantics/published

Published

2006

8. Familial and sporadic primary pulmonary hypertension is caused by BMPR2 gene mutations resulting in haploinsufficiency of the bone morphogenetic protein type II receptor

Author

Thomson, J., Machado, Rajiv, Pauciulo, M., Morgan, N., Yacoub, M., Corris, P., McNeil, K., Loyd, J., Nichols, W., Trembath, R., Thomson, J., Machado, Rajiv, Pauciulo, M., Morgan, N., Yacoub, M., Corris, P., McNeil, K., Loyd, J., Nichols, W., and Trembath, R.

9. Pulmonary arterial hypertension: a current perspective on established and emerging molecular genetic defects

Author

Machado, Rajiv D., Southgate, Laura, Eichstaedt, Christina A., Aldred, Micheala A., Austin, Eric D., Best, D. Hunter, Chung, Wendy K., Benjamin, Nicola, Elliott, C. Gregory, Eyries, Mélanie, Fischer, Christine, Gräf, Stefan, Hinderhofer, Katrin, Humbert, Marc, Keiles, Steven B., Loyd, James E., Morrell, Nicholas W., Newman, John H., Soubrier, Florent, Trembath, Richard C., Viales, Rebecca Rodríguez, Grünig, Ekkehard, Machado, Rajiv D., Southgate, Laura, Eichstaedt, Christina A., Aldred, Micheala A., Austin, Eric D., Best, D. Hunter, Chung, Wendy K., Benjamin, Nicola, Elliott, C. Gregory, Eyries, Mélanie, Fischer, Christine, Gräf, Stefan, Hinderhofer, Katrin, Humbert, Marc, Keiles, Steven B., Loyd, James E., Morrell, Nicholas W., Newman, John H., Soubrier, Florent, Trembath, Richard C., Viales, Rebecca Rodríguez, and Grünig, Ekkehard

Abstract

Pulmonary arterial hypertension (PAH) is an often fatal disorder resulting from several causes including heterogeneous genetic defects. While mutations in the bone morphogenetic protein receptor type II (BMPR2) gene are the single most common causal factor for hereditary cases, pathogenic mutations have been observed in approximately 25% of idiopathic PAH patients without a prior family history of disease. Additional defects of the transforming growth factor beta pathway have been implicated in disease pathogenesis. Specifically, studies have confirmed activin A receptor type II-like 1 (ACVRL1), endoglin (ENG), and members of the SMAD family as contributing to PAH both with and without associated clinical phenotypes. Most recently, next-generation sequencing has identified novel, rare genetic variation implicated in the PAH disease spectrum. Of importance, several identified genetic factors converge on related pathways and provide significant insight into the development, maintenance, and pathogenetic transformation of the pulmonary vascular bed. Together, these analyses represent the largest comprehensive compilation of BMPR2 and associated genetic risk factors for PAH, comprising known and novel variation. Additionally, with the inclusion of an allelic series of locus-specific variation in BMPR2, these data provide a key resource in data interpretation and development of contemporary therapeutic and diagnostic tools.

10. Selective enhancement of endothelial BMPR-II with BMP9 reverses pulmonary arterial hypertension

Author

Long, Lu, Ormiston, Mark L., Yang, Xudong, Southwood, Mark, Gräf, Stefan, Machado, Rajiv D., Mueller, Matthias, Kinzel, Bernd, Yung, Lai Ming, Wilkinson, Janine M., Moore, Stephen D., Drake, Kylie M., Aldred, Micheala A., Yu, Paul B., Upton, Paul D., Morrell, Nicholas W., Long, Lu, Ormiston, Mark L., Yang, Xudong, Southwood, Mark, Gräf, Stefan, Machado, Rajiv D., Mueller, Matthias, Kinzel, Bernd, Yung, Lai Ming, Wilkinson, Janine M., Moore, Stephen D., Drake, Kylie M., Aldred, Micheala A., Yu, Paul B., Upton, Paul D., and Morrell, Nicholas W.

Abstract

Genetic evidence implicates the loss of bone morphogenetic protein type II receptor (BMPR-II) signaling in the endothelium as an initiating factor in pulmonary arterial hypertension (PAH). However, selective targeting of this signaling pathway using BMP ligands has not yet been explored as a therapeutic strategy. Here, we identify BMP9 as the preferred ligand for preventing apoptosis and enhancing monolayer integrity in both pulmonary arterial endothelial cells and blood outgrowth endothelial cells from subjects with PAH who bear mutations in the gene encoding BMPR-II, BMPR2. Mice bearing a heterozygous knock-in allele of a human BMPR2 mutation, R899X, which we generated as an animal model of PAH caused by BMPR-II deficiency, spontaneously developed PAH. Administration of BMP9 reversed established PAH in these mice, as well as in two other experimental PAH models, in which PAH develops in response to either monocrotaline or VEGF receptor inhibition combined with chronic hypoxia. These results demonstrate the promise of direct enhancement of endothelial BMP signaling as a new therapeutic strategy for PAH.

11. Haploinsufficiency of the NOTCH1 receptor as a cause of Adams-Oliver Syndrome with variable cardiac anomalies

Author

Southgate, Laura, Sukalo, Maja, Karountzos, Anastasios S. V., Taylor, Edward J., Collinson, Claire S., Ruddy, Deborah, Snape, Katie M., Dallapiccola, Bruno, Tolmie, John L., Joss, Shelagh, Brancati, Francesco, Digilio, M. Cristina, Graul-Neumann, Luitgard M., Salviati, Leonardo, Coerdt, Wiltrud, Jacquemin, Emmanuel, Wuyts, Wim, Zenker, Martin, Machado, Rajiv D., Trembath, Richard C., Southgate, Laura, Sukalo, Maja, Karountzos, Anastasios S. V., Taylor, Edward J., Collinson, Claire S., Ruddy, Deborah, Snape, Katie M., Dallapiccola, Bruno, Tolmie, John L., Joss, Shelagh, Brancati, Francesco, Digilio, M. Cristina, Graul-Neumann, Luitgard M., Salviati, Leonardo, Coerdt, Wiltrud, Jacquemin, Emmanuel, Wuyts, Wim, Zenker, Martin, Machado, Rajiv D., and Trembath, Richard C.

Abstract

BACKGROUND -Adams-Oliver syndrome (AOS) is a rare disorder characterized by congenital limb defects and scalp cutis aplasia. In a proportion of cases, notable cardiac involvement is also apparent. Despite recent advances in the understanding of the genetic basis of AOS, for the majority of affected subjects the underlying molecular defect remains unresolved. This study aimed to identify novel genetic determinants of AOS. METHODS AND RESULTS -Whole-exome sequencing was performed for 12 probands, each with a clinical diagnosis of AOS. Analyses led to the identification of novel heterozygous truncating NOTCH1 mutations (c.1649dupA and c.6049_6050delTC) in two kindreds in which AOS was segregating as an autosomal dominant trait. Screening a cohort of 52 unrelated AOS subjects, we detected 8 additional unique NOTCH1 mutations, including three de novo amino-acid substitutions, all within the ligand-binding domain. Congenital heart anomalies were noted in 47% (8/17) of NOTCH1-positive probands and affected family members. In leucocyte-derived RNA from subjects harboring NOTCH1 extracellular domain mutations, we observed significant reduction of NOTCH1 expression, suggesting instability and degradation of mutant mRNA transcripts by the cellular machinery. Transient transfection of mutagenized NOTCH1 missense constructs also revealed significant reduction in gene expression. Mutant NOTCH1 expression was associated with down-regulation of the Notch target genes HEY1 and HES1, indicating that NOTCH1-related AOS arises through dysregulation of the Notch signaling pathway. CONCLUSIONS -These findings highlight a key role for NOTCH1 across a range of developmental anomalies that include cardiac defects, and implicate NOTCH1 haploinsufficiency as a likely molecular mechanism for this group of disorders.

12. The molecular genetics and cellular mechanisms underlying pulmonary arterial hypertension

Author

Machado, Rajiv and Machado, Rajiv

Abstract

Pulmonary arterial hypertension (PAH) is an incurable disorder clinically characterised by a sustained elevation of mean arterial pressure in the absence of systemic involvement. As the adult circulation is a low pressure, low resistance system, PAH represents a reversal to a foetal state. The small pulmonary arteries of patients exhibit luminal occlusion resultant from the uncontrolled growth of endothelial and smooth muscle cells. This vascular remodelling is comprised of hallmark defects, most notably the plexiform lesion. PAH may be familial in nature but the majority of patients present with spontaneous disease or PAH associated with other complications. In this paper, the molecular genetic basis of the disorder is discussed in detail ranging from the original identification of the major genetic contributant to PAH and moving on to current next-generation technologies that have led to the rapid identification of additional genetic risk factors. The impact of identified mutations on the cell is examined, particularly, the determination of pathways disrupted in disease and critical to pulmonary vascular maintenance. Finally, the application of research in this area to the design and development of novel treatment options for patients is addressed along with the future directions PAH research is progressing towards.

13. Genetics and genomics of pulmonary arterial hypertension

Author

Soubrier, Florent, Chung, Wendy K., Machado, Rajiv, Grunig, Ekkehard, Aldred, Michaela, Geraci, Mark, Loyd, James E., Elliott, C. Gregory, Trembath, Richard C., Newman, John H., Humbert, Marc, Soubrier, Florent, Chung, Wendy K., Machado, Rajiv, Grunig, Ekkehard, Aldred, Michaela, Geraci, Mark, Loyd, James E., Elliott, C. Gregory, Trembath, Richard C., Newman, John H., and Humbert, Marc

Abstract

Major discoveries have been obtained within the last decade in the field of hereditary predisposition to pulmonary arterial hypertension (PAH). Among them, the identification of bone morphogenetic protein receptor type 2 (BMPR2) as the major predisposing gene and activin A receptor type II-like kinase-1 (ACVRL1, also known as ALK1) as the major gene when PAH is associated with hereditary hemorrhagic telangiectasia. The mutation detection rate for the known genes is approximately 75 in familial PAH, but the mutation shortfall remains unexplained even after careful molecular investigation of these genes. To identify additional genetic variants predisposing to PAH, investigators harnessed the power of next-generation sequencing to successfully identify additional genes that will be described in this report. Furthermore, common genetic predisposing factors for PAH can be identified by genome-wide association studies and are detailed in this paper. The careful study of families and routine genetic diagnosis facilitated natural history studies based on large registries of PAH patients to be set up in different countries. These longitudinal or cross-sectional studies permitted the clinical characterization of PAH in mutation carriers to be accurately described. The availability of molecular genetic diagnosis has opened up a new field for patient care, including genetic counseling for a severe disease, taking into account that the major predisposing gene has a highly variable penetrance between families. Molecular information can be drawn from the genomic study of affected tissues in PAH, in particular, pulmonary vascular tissues and cells, to gain insight into the mechanisms leading to the development of the disease. High-throughput genomic techniques, on the basis of next-generation sequencing, now allow the accurate quantification and analysis of ribonucleic acid, species, including micro-ribonucleic acids, and allow for a genome-wide investigation of epigenetic or regul

14. Assessment of a pulmonary origin for blood outgrowth endothelial cells by examination of identical twins harboring a BMPR2 mutation

Author

Ormiston, Mark L., Southgate, Laura, Treacy, Carmen, Pepke-Zaba, Joanna, Trembath, Richard C., Machado, Rajiv D., Morrell, Nicholas W., Ormiston, Mark L., Southgate, Laura, Treacy, Carmen, Pepke-Zaba, Joanna, Trembath, Richard C., Machado, Rajiv D., and Morrell, Nicholas W.

15. Genetics [chapter 3]

Author

Gatzoulis, Michael A., Machado, Rajiv D., Trembath, Richard C., Gatzoulis, Michael A., Machado, Rajiv D., and Trembath, Richard C.

Abstract

A heritable basis to pulmonary arterial hypertension (PAH) was initially observed by Dresdale in 1954. Familial clustering has since been recorded in approximately 10% of the patient population although, due to the complex features of inheritance in PAH, it is widely acknowledged that the proportion of patients with one or more affected relatives is likely to be higher. Indeed, familial PAH has since been reclassified as heritable or HPAH in light of the fact that a germline genetic defect may be transmissible to future generations in as many as a third of all cases. In the majority of cases, PAH is idiopathic arising spontaneously without familial sharing and without a detectable underlying genetic cause. PAH may occur in association with known risk factors, for example, fenfluramine and dexfenfluramine derived appetite suppressant drugs, or other disorders including thromboembolic disease, connective tissue disease, congenital heart disorders and human immunodeficiency virus (HIV) infection. The classical features of vasoconstriction and pulmonary arteriole remodelling are observed in all forms of PAH, suggesting a common aetiology although shared disease pathways remain to be fully elucidated.

16. Genetics of severe pulmonary hypertension [chapter 12]

Author

Voelkel, Norbert F., Machado, Rajiv D., Trembath, Richard C., Morrell, Nicholas W., Voelkel, Norbert F., Machado, Rajiv D., Trembath, Richard C., and Morrell, Nicholas W.

Abstract

The identification of the genetic basis of heritable pulmonary arterial hypertension (HPAH) was a landmark discovery in the field. Ten years later, investigators are making significant progress toward understanding how such mutations confer susceptibility to disease and using this information to devise new approaches to treatment. Still, much remains to be learned regarding the genetic architecture of severe pulmonary arterial hypertension (PAH) and the genetic contribution to disease susceptibility. Evidence of familial clustering in PAH was first reported by Dresdale in 1954. Familial PAH, observed in approximately 10% of all ascertained cases, has recently been redefined as HPAH to acknowledge the fact that a causal and transmissible genetic defect may underlie disease in as many as a third of all cases. PAH may also be idiopathic (IPAH), or observed in association with exposure to risk factors such as appetite suppressant drugs and a limited series of disorders, including connective tissue disease, congenital heart disease, human immunodeficiency virus infection, and thromboembolic disease.

17. Molecular genetic characterization of SMAD signaling molecules in pulmonary arterial hypertension

Author

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., Machado, Rajiv D., 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.

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.

18. Clinical and molecular genetic features of pulmonary hypertension in patients with hereditary hemorrhagic telangiectasia

Author

Trembath, R. C., Thomson, J. R., Machado, Rajiv D., Morgan, N. V., Atkinson, C., Winship, I., Simonneau, G., Galie, N., Loyd, J. E., Humbert, M., Nichols, W .C., Morrell, N. W., Berg, J., Manes, A., McGaughran, J., Pauciulo, M., Wheeler, L., Trembath, R. C., Thomson, J. R., Machado, Rajiv D., Morgan, N. V., Atkinson, C., Winship, I., Simonneau, G., Galie, N., Loyd, J. E., Humbert, M., Nichols, W .C., Morrell, N. W., Berg, J., Manes, A., McGaughran, J., Pauciulo, M., and Wheeler, L.

Abstract

BACKGROUND: Most patients with familial primary pulmonary hypertension have defects in the gene for bone morphogenetic protein receptor II (BMPR2), a member of the transforming growth factor beta (TGF-beta) superfamily of receptors. Because patients with hereditary hemorrhagic telangiectasia may have lung disease that is indistinguishable from primary pulmonary hypertension, we investigated the genetic basis of lung disease in these patients. METHODS: We evaluated members of five kindreds plus one individual patient with hereditary hemorrhagic telangiectasia and identified 10 cases of pulmonary hypertension. In the two largest families, we used microsatellite markers to test for linkage to genes encoding TGF-beta-receptor proteins, including endoglin and activin-receptor-like kinase 1 (ALK1), and BMPR2. In subjects with hereditary hemorrhagic telangiectasia and pulmonary hypertension, we also scanned ALK1 and BMPR2 for mutations. RESULTS: We identified suggestive linkage of pulmonary hypertension with hereditary hemorrhagic telangiectasia on chromosome 12q13, a region that includes ALK1. We identified amino acid changes in activin-receptor-like kinase 1 that were inherited in subjects who had a disorder with clinical and histologic features indistinguishable from those of primary pulmonary hypertension. Immunohistochemical analysis in four subjects and one control showed pulmonary vascular endothelial expression of activin-receptor-like kinase 1 in normal and diseased pulmonary arteries. CONCLUSIONS: Pulmonary hypertension in association with hereditary hemorrhagic telangiectasia can involve mutations in ALK1. These mutations are associated with diverse effects, including the vascular dilatation characteristic of hereditary hemorrhagic telangiectasia and the occlusion of small pulmonary arteries that is typical of primary pulmonary hypertension.

19. Stress Doppler echocardiography in relatives of patients with idiopathic and familial pulmonary arterial hypertension: results of a multicenter European analysis of pulmonary artery pressure response to exercise and hypoxia

Author

Grünig, Ekkehard, Weissmann, Sylvia, Ehlken, Nicola, Fijalkowska, Anna, Fischer, Christine, Fourme, Thierry, Galié, Nazzareno, Ghofrani, Ardeschir, Harrison, Rachel E, Huez, Sandrine, Humbert, Marc, Janssen, Bart, Kober, Jaroslaw, Koehler, Rolf, Machado, Rajiv D., Mereles, Derliz, Naeije, Robert, Olschewski, Horst, Provencher, Steeve, Reichenberger, Frank, Retailleau, Kathleen, Rocchi, Guido, Simonneau, Gérald, Torbicki, Adam, Trembath, Richard, Seeger, Werner, Grünig, Ekkehard, Weissmann, Sylvia, Ehlken, Nicola, Fijalkowska, Anna, Fischer, Christine, Fourme, Thierry, Galié, Nazzareno, Ghofrani, Ardeschir, Harrison, Rachel E, Huez, Sandrine, Humbert, Marc, Janssen, Bart, Kober, Jaroslaw, Koehler, Rolf, Machado, Rajiv D., Mereles, Derliz, Naeije, Robert, Olschewski, Horst, Provencher, Steeve, Reichenberger, Frank, Retailleau, Kathleen, Rocchi, Guido, Simonneau, Gérald, Torbicki, Adam, Trembath, Richard, and Seeger, Werner

Abstract

BACKGROUND: This large, prospective, multicentric study was performed to analyze the distribution of tricuspid regurgitation velocity (TRV) values during exercise and hypoxia in relatives of patients with idiopathic and familial pulmonary arterial hypertension (PAH) and in healthy control subjects. We tested the hypothesis that relatives of idiopathic/familial PAH patients display an enhanced frequency of hypertensive TRV response to stress and that this response is associated with mutations in the bone morphogenetic protein receptor II (BMPR2) gene. METHODS AND RESULTS: TRV was estimated by Doppler echocardiography during supine bicycle exercise in normoxia and during 120 minutes of normobaric hypoxia (FIO(2)=12%; approximately 4500 m) in 291 relatives of 109 PAH patients and in 191 age-matched control subjects. Mean maximal TRVs were significantly higher in PAH relatives during both exercise and hypoxia. During exercise, 10% of control subjects but 31.6% of relatives (P<0.0001) exceeded the 90% quantile of mean maximal TRV seen in control subjects. Hypoxia revealed hypertensive TRV in 26% of relatives (P=0.0029). Among control subjects, TRV at rest was not related to age, sex, body mass index, systemic blood pressure, smoking status, or heart rate. Within kindreds identified as harboring deleterious mutations of the BMPR2 gene, a hypertensive TRV response occurred significantly more often compared with those without detected mutations. CONCLUSIONS: Pulmonary hypertensive response to exercise and hypoxia in idiopathic/familial PAH relatives appears as a genetic trait with familial clustering, being correlated to but not caused by a BMPR2 mutation. The suitability of this trait to predict manifest PAH development should be addressed in long-term follow-up studies.

20. BMPR2 haploinsufficiency as the inherited molecular mechanism for primary pulmonary hypertension

Author

Machado, Rajiv D., Pauciulo, M. W., Thomson, J. R., Lane, K. B., Morgan, N. V., Wheeler, L., Phillips, J. A., Newman, J., Williams, D., Galiè, N., Manes, A., McNeil, K., Yacoub, M., Mikhail, G., Rogers, P., Corris, P., Humbert, M., Donnai, D., Martensson, G., Tranebjaerg, L., Loyd, J. E., Trembath, R. C., Nichols, W. C., Machado, Rajiv D., Pauciulo, M. W., Thomson, J. R., Lane, K. B., Morgan, N. V., Wheeler, L., Phillips, J. A., Newman, J., Williams, D., Galiè, N., Manes, A., McNeil, K., Yacoub, M., Mikhail, G., Rogers, P., Corris, P., Humbert, M., Donnai, D., Martensson, G., Tranebjaerg, L., Loyd, J. E., Trembath, R. C., and Nichols, W. C.

Abstract

Primary pulmonary hypertension (PPH) is a potentially lethal disorder, because the elevation of the pulmonary arterial pressure may result in right-heart failure. Histologically, the disorder is characterized by proliferation of pulmonary-artery smooth muscle and endothelial cells, by intimal hyperplasia, and by in situ thrombus formation. Heterozygous mutations within the bone morphogenetic protein type II receptor (BMPR-II) gene (BMPR2), of the transforming growth factor beta (TGF-beta) cell-signaling superfamily, have been identified in familial and sporadic cases of PPH. We report the molecular spectrum of BMPR2 mutations in 47 additional families with PPH and in three patients with sporadic PPH. Among the cohort of patients, we have identified 22 novel mutations, including 4 partial deletions, distributed throughout the BMPR2 gene. The majority (58%) of mutations are predicted to lead to a premature termination codon. We have also investigated the functional impact and genotype-phenotype relationships, to elucidate the mechanisms contributing to pathogenesis of this important vascular disease. In vitro expression analysis demonstrated loss of BMPR-II function for a number of the identified mutations. These data support the suggestion that haploinsufficiency represents the common molecular mechanism in PPH. Marked variability of the age at onset of disease was observed both within and between families. Taken together, these studies illustrate the considerable heterogeneity of BMPR2 mutations that cause PPH, and they strongly suggest that additional factors, genetic and/or environmental, may be required for the development of the clinical phenotype.

21. Primary pulmonary hypertension is associated with reduced pulmonary vascular expression of type II bone morphogenetic protein receptor

Author

Atkinson, Carl, Stewart, Susan, Upton, Paul D., Machado, Rajiv D., Thomson, Jennifer R., Trembath, Richard C., Morrell, Nicholas W., Atkinson, Carl, Stewart, Susan, Upton, Paul D., Machado, Rajiv D., Thomson, Jennifer R., Trembath, Richard C., and Morrell, Nicholas W.

Abstract

BACKGROUND: Mutations in the type II receptor for bone morphogenetic protein (BMPR-II), a receptor member of the transforming growth factor-beta (TGF-beta) superfamily, underlie many familial and sporadic cases of primary pulmonary hypertension (PPH). METHODS AND RESULTS: Because the sites of expression of BMPR-II in the normal and hypertensive lung are unknown, we studied the cellular localization of BMPR-II and the related type I and II receptors for TGF-beta by immunohistochemistry in lung sections from patients undergoing heart-lung transplantation for PPH (n=11, including 3 familial cases) or secondary pulmonary hypertension (n=6) and from unused donor lungs (n=4). In situ hybridization was performed for BMPR-II mRNA. Patients were screened for the presence of mutations in BMPR2. In normal lungs, BMPR-II expression was prominent on vascular endothelium, with minimal expression in airway and arterial smooth muscle. In pulmonary hypertension cases, the intensity of BMPR-II immunostaining varied between lesions but involved endothelial and myofibroblast components. Image analysis confirmed that expression of BMPR-II was markedly reduced in the peripheral lung of PPH patients, especially in those harboring heterozygous BMPR2 mutations. A less marked reduction was also observed in patients with secondary pulmonary hypertension. In contrast, there was no difference in level of staining for TGF-betaRII or the endothelial marker CD31. CONCLUSIONS: The cellular localization of BMPR-II is consistent with a role in the formation of pulmonary vascular lesions in PPH, and reduced BMPR-II expression may contribute to the process of vascular obliteration in severe pulmonary hypertension.

22. Sporadic primary pulmonary hypertension is associated with germline mutations of the gene encoding BMPR-II, a receptor member of the TGF-beta family

Author

Thomson, J. R., Machado, Rajiv D., Pauciulo, M. W., Morgan, N .V., Humbert, M., Elliott, G. C., Ward, K., Yacoub, M., Mikhail, G., Rogers, P., Newman, J., Wheeler, L., Higenbottam, T., Gibbs, J. S., Egan, J., Crozier, A., Peacock, A., Allcock, R., Corris, P., Loyd, J. E., Trembath, R. C., Nichols, W. C., Thomson, J. R., Machado, Rajiv D., Pauciulo, M. W., Morgan, N .V., Humbert, M., Elliott, G. C., Ward, K., Yacoub, M., Mikhail, G., Rogers, P., Newman, J., Wheeler, L., Higenbottam, T., Gibbs, J. S., Egan, J., Crozier, A., Peacock, A., Allcock, R., Corris, P., Loyd, J. E., Trembath, R. C., and Nichols, W. C.

Abstract

BACKGROUND: Primary pulmonary hypertension (PPH), resulting from occlusion of small pulmonary arteries, is a devastating condition. Mutations of the bone morphogenetic protein receptor type II gene (BMPR2), a component of the transforming growth factor beta (TGF-beta) family which plays a key role in cell growth, have recently been identified as causing familial PPH. We have searched for BMPR2 gene mutations in sporadic PPH patients to determine whether the same genetic defect underlies the more common form of the disorder. METHODS: We investigated 50 unrelated patients, with a clinical diagnosis of PPH and no identifiable family history of pulmonary hypertension, by direct sequencing of the entire coding region and intron/exon boundaries of the BMPR2 gene. DNA from available parent pairs (n=5) was used to assess the occurrence of spontaneous (de novo) mutations contributing to sporadic PPH. RESULTS: We found a total of 11 different heterozygous germline mutations of the BMPR2 gene in 13 of the 50 PPH patients studied, including missense (n=3), nonsense (n=3), and frameshift (n=5) mutations each predicted to alter the cell signalling response to specific ligands. Parental analysis showed three occurrences of paternal transmission and two of de novo mutation of the BMPR2 gene in sporadic PPH. CONCLUSION: The sporadic form of PPH is associated with germline mutations of the gene encoding the receptor protein BMPR-II in at least 26% of cases. A molecular classification of PPH, based upon the presence or absence of BMPR2 mutations, has important implications for patient management and screening of relatives.

23. Genetics and genomics of pulmonary arterial hypertension

Author

Machado, Rajiv D., Eickelberg, Oliver, Elliott, C. Gregory, Geraci, Mark W., Hanaoka, Masayuki, Loyd, James E., Newman, John H., Phillips, John A., Soubrier, Florent, Trembath, Richard C., Chung, Wendy K., Machado, Rajiv D., Eickelberg, Oliver, Elliott, C. Gregory, Geraci, Mark W., Hanaoka, Masayuki, Loyd, James E., Newman, John H., Phillips, John A., Soubrier, Florent, Trembath, Richard C., and Chung, Wendy K.

Abstract

Pulmonary arterial hypertension (PAH) is a rare disorder that may be hereditable (HPAH), idiopathic (IPAH), or associated with either drug-toxin exposures or other medical conditions. Familial cases have long been recognized and are usually due to mutations in the bone morphogenetic protein receptor type 2 gene (BMPR2), or, much less commonly, 2 other members of the transforming growth factor-beta superfamily, activin-like kinase-type 1 (ALK1) and endoglin (ENG), which are associated with hereditary hemorrhagic telangiectasia. In addition, approximately 20% of patients with IPAH carry mutations in BMPR2. We provide a summary of BMPR2 mutations associated with HPAH, most of which are unique to each family and are presumed to result in loss of function. We review the finding of missense variants and variants of unknown significance in BMPR2 in IPAH/HPAH, fenfluramine exposure, and PAH associated with congenital heart disease. Clinical testing for BMPR2 mutations is available and may be offered to HPAH and IPAH patients but should be preceded by genetic counseling, since lifetime penetrance is only 10% to 20%, and there are currently no known effective preventative measures. Identification of a familial mutation can be valuable in reproductive planning and identifying family members who are not mutation carriers and thus will not require lifelong surveillance. With advances in genomic technology and with international collaborative efforts, genome-wide association studies will be conducted to identify additional genes for HPAH, genetic modifiers for BMPR2 penetrance and genetic susceptibility to IPAH. In addition, collaborative studies of BMPR2 mutation carriers should enable identification of environmental modifiers, biomarkers for disease development and progression, and surrogate markers for efficacy end points in clinical drug development, thereby providing an invaluable resource for trials of PAH prevention.

24. Genetic association of the serotonin transporter in pulmonary arterial hypertension

Author

Machado, Rajiv D., Koehler, Rolf, Glissmeyer, Eric, Veal, Colin, Suntharalingam, Jay, Kim, Miryoung, Carlquist, John, Town, Margaret, Elliott, C. Gregory, Hoeper, Marius, Fijalkowska, Anna, Kurzyna, Marcin, Thomson, Jennifer R., Gibbs, Simon R., Wilkins, Martin R., Seeger, Werner, Morrell, Nicholas W., Gruenig, Ekkehard, Trembath, Richard C., Janssen, Bart, Machado, Rajiv D., Koehler, Rolf, Glissmeyer, Eric, Veal, Colin, Suntharalingam, Jay, Kim, Miryoung, Carlquist, John, Town, Margaret, Elliott, C. Gregory, Hoeper, Marius, Fijalkowska, Anna, Kurzyna, Marcin, Thomson, Jennifer R., Gibbs, Simon R., Wilkins, Martin R., Seeger, Werner, Morrell, Nicholas W., Gruenig, Ekkehard, Trembath, Richard C., and Janssen, Bart

Abstract

RATIONALE: The bone morphogenetic receptor type II gene is the major genetic determinant for the inherited form of pulmonary arterial hypertension. However, deleterious mutations of this gene are not observed in the majority of subjects who develop the condition spontaneously and familial disease displays age- and sex-dependent penetrance, indicating the requirement for additional environmental and/or genetic modifiers for disease development. METHODS: We investigated polymorphic variation of the serotonin transporter gene, a biological candidate for predisposition to this vascular disorder. RESULTS: No significant evidence of association between alleles of the serotonin transporter gene and pulmonary hypertension was detected, nor did we observe a relationship with age of onset in familial and idiopathic disease. CONCLUSIONS: Variation of the serotonin transporter gene appears unlikely to confer significant susceptibility to pulmonary arterial hypertension. This study emphasizes the need for adequately powered cohorts for association analyses to identify not only genetic determinants of disease susceptibility but also inherited modifiers for disease development.

25. BMPR2 mutations have short lifetime expectancy in primary pulmonary hypertension

Author

Sankelo, Marja, Flanagan, Julia A., Machado, Rajiv, Harrison, Rachel, Rudarakanchana, Nung, Morrell, Nicholas, Dixon, Morag, Halme, Maija, Puolijoki, Hannu, Kere, Juha, Elomaa, Outi, Kupari, Markku, Räisänen-Sokolowski, Anne, Trembath, Richard C., Laitinen, Tarja, Sankelo, Marja, Flanagan, Julia A., Machado, Rajiv, Harrison, Rachel, Rudarakanchana, Nung, Morrell, Nicholas, Dixon, Morag, Halme, Maija, Puolijoki, Hannu, Kere, Juha, Elomaa, Outi, Kupari, Markku, Räisänen-Sokolowski, Anne, Trembath, Richard C., and Laitinen, Tarja

Abstract

In a nationwide study, we identified a total of 59 patients diagnosed with primary pulmonary hypertension (PPH) in Finland between the years 1987 and 1999. These data support a minimum estimate for a PPH population prevalence of 5.8 cases/million with an incidence of 0.2-1.3 cases/million/year. The male-to-female ratio among the patients was 1:4, while 7% (4/59) of the PPH probands had a known family history of the disorder. Familial or sporadic PPH showed no geographic clustering to any region of Finland. Sequencing of the coding regions and exon-intron boundaries of the bone morphogenetic protein receptor type 2 (BMPR2) identified heterozygous BMPR2 mutations in 12% (3/26) of the sporadic and 33% (1/3) of the familial patients. All four mutations were different, and two of those have been previously reported in other populations. Pathogenic defects in BMPR2 include a novel missense mutation (c.2696G>C encoding R899P), located within the receptor intracellular cytoplasmic domain whose function has been poorly characterized. Our analysis demonstrates that this mutant, while localizing to the cell surface, does not impact on SMAD-mediated (mothers against decapentaplegic homolog) intracellular signaling, but leads to constitutive activation of the p38(MAPK) pathway. The absence of a founder mutation in a genetically homogeneous population, such as the Finns, suggests that all identified BMPR2 mutations have to be rather young while the ancestral (if any) mutations have been lost either due to repetitive genetic bottlenecks or due to significant negative selection.

26. Investigation of second genetic hits at the BMPR2 locus as a modulator of disease progression in familial pulmonary arterial hypertension

Author

Machado, Rajiv D., James, Victoria, Southwood, Mark, Harrison, Rachel E., Atkinson, Carl, Stewart, Susan, Morrell, Nicholas W., Trembath, Richard C., Aldred, Micheala A., Machado, Rajiv D., James, Victoria, Southwood, Mark, Harrison, Rachel E., Atkinson, Carl, Stewart, Susan, Morrell, Nicholas W., Trembath, Richard C., and Aldred, Micheala A.

Abstract

BACKGROUND: Primary pulmonary arterial hypertension (PAH) is a potentially devastating condition resulting from occlusion of the pulmonary arterioles by the formation of vascular lesions. Heterozygous mutations in the gene encoding the bone morphogenetic protein receptor type II (BMPR2) have been identified in both familial (FPAH) and idiopathic PAH. Mutant alleles are typically of low penetrance, indicating that other factors are required for the onset of PAH. Previous reports have suggested that the characteristic plexiform lesions in affected lungs are akin to neoplasia, showing monoclonal expansion and microsatellite instability. We hypothesized that in patients with germline mutations, BMPR2 might behave as a classic tumor suppressor gene, with somatic loss of the wild-type allele contributing to disease progression. METHODS AND RESULTS: To test this hypothesis, plexiform and concentric vascular lesions were serially microdissected from lung explant tissue derived from 7 FPAH cases. DNA was analyzed for loss of heterozygosity at BMPR2 and for microsatellite instability (MSI) at 5 loci. MSI was detected in 1 of 37 lesions at a single locus, BAT-26, whereas heterozygosity at BMPR2 was retained at all informative loci. We also describe a FPAH patient carrying biallelic constitutional missense mutations of BMPR2 who manifested disease at a stage and manner similar to heterozygous patients. CONCLUSIONS: Taken together, these data demonstrate that MSI is uncommon in FPAH and suggest that somatic loss of the remaining wild-type BMPR2 allele in heterozygous mutation carriers likely does not play a significant role in modulating the onset or progression of FPAH.

27. Demographic features, BMPR2 status and outcomes in distal chronic thromboembolic pulmonary hypertension

Author

Suntharalingam, Jay, Machado, Rajiv D., Sharples, Linda D., Toshner, Mark R., Sheares, Karen K., Hughes, Rodney J., Jenkins, David P., Trembath, Richard C., Morrell, Nicholas W., Pepke-Zaba, Joanna, Suntharalingam, Jay, Machado, Rajiv D., Sharples, Linda D., Toshner, Mark R., Sheares, Karen K., Hughes, Rodney J., Jenkins, David P., Trembath, Richard C., Morrell, Nicholas W., and Pepke-Zaba, Joanna

Abstract

BACKGROUND: Although pulmonary endarterectomy (PEA) is potentially curative in chronic thromboembolic pulmonary hypertension (CTEPH), some patients have distally distributed disease that is not amenable to surgery. The aetiology and characteristics of this patient group are currently not well understood. OBJECTIVES: This study compares the baseline demographic features and outcomes in subjects with distal CTEPH, those with proximal CTEPH and those with idiopathic pulmonary arterial hypertension (IPAH) to determine whether these conditions represent separate entities or whether they exist along the same spectrum of disease. METHODS: The medical history, clinical characteristics, bone morphogenetic protein receptor type II (BMPR2) mutation status and outcomes of 96 subjects with IPAH, 35 with distal CTEPH and 68 with proximal CTEPH referred to a single specialist centre between 1994 and 2005 were reviewed. RESULTS: There were significant differences between the distal CTEPH, proximal CTEPH and IPAH groups in age (55.9 years vs 54.8 years vs 46.2 years, p<0.001), proportion who were male (43% vs 69% vs 29%, p<0.001), previous deep vein thrombosis (28.6% vs 30.9% vs 3.1%, p<0.001), positive BMPR2 status (0% vs 0% vs 15%, p = 0.018), mean pulmonary artery pressure (47.3 mm Hg vs 45.4 mm Hg vs 54.8 mm Hg, p<0.001) and total pulmonary resistance (12.9 WU vs 12.4 WU vs 18.1 WU, p<0.001). Patients with distal CTEPH and those with IPAH were managed similarly and had comparable survival characteristics (1 year survival 77% vs 86%; 3 year survival 53% vs 60%; p = 0.68). CONCLUSIONS: Patients with distal CTEPH share certain demographic features with patients with proximal CTEPH that not only indicate a common aetiology but also help to differentiate them from patients with IPAH. Despite more favourable haemodynamic parameters in those with distal CTEPH, patients in this group had a poor long-term outcome which was similar to that of patients with IPAH.

28. Functional interaction between BMPR-II and Tctex-1, a light chain of Dynein, is isoform-specific and disrupted by mutations underlying primary pulmonary hypertension

Author

Machado, Rajiv D., Rudarakanchana, Nung, Atkinson, Carl, Flanagan, Julia A., Harrison, Rachel, Morrell, Nicholas W., Trembath, Richard C., Machado, Rajiv D., Rudarakanchana, Nung, Atkinson, Carl, Flanagan, Julia A., Harrison, Rachel, Morrell, Nicholas W., and Trembath, Richard C.

Abstract

Diverse heterozygous mutations of bone morphogenetic receptor type II (BMPR-II) underlie the inherited form of the vascular disorder primary pulmonary hypertension (PPH). As yet, the molecular detail of how such defects contribute to the pathogenesis of PPH remains unclear. BMPR-II is a member of the transforming growth factor-beta cell signalling superfamily. Ligand binding induces cell surface receptor complex formation and activates a cascade of phosphorylation events of intracellular intermediaries termed Smads, which initiate transcriptional regulation. Some 30% of PPH-causing mutations localize to exon 12, which may be spliced out forming an isoform depleted of the unusually long BMPR-II cytoplasmic tail. To further elucidate the consequences of BMPR2 mutation, we sought to characterize aspects of the cytoplasmic domain function by seeking intracellular binding partners. We now report that Tctex-1, a light chain of the motor complex dynein, interacts with the cytoplasmic domain of BMPR-II and demonstrate that Tctex-1 is phosphorylated by BMPR-II, a function disrupted by PPH disease causing mutations within exon 12. Finally we show that BMPR-II and Tctex-1 co-localize to endothelium and smooth muscle within the media of pulmonary arterioles, key sites of vascular remodelling in PPH. Taken together, these data demonstrate a discrete function for the cytoplasmic domain of BMPR-II and justify further investigation of whether the interaction with and phosphorylation of Tctex-1 contributes to the pathogenesis of PPH.

29. Dymeclin, the gene underlying Dyggve-Melchior-Clausen syndrome, encodes a protein integral to extracellular matrix and golgi organization and is associated with protein secretion pathways critical in bone development

Author

Denais, Celine, Dent, Carolyn L., Southgate, Laura, Hoyle, Jacqueline, Dafou, Dimitra, Trembath, Richard C., Machado, Rajiv D., Denais, Celine, Dent, Carolyn L., Southgate, Laura, Hoyle, Jacqueline, Dafou, Dimitra, Trembath, Richard C., and Machado, Rajiv D.

Abstract

Dyggve-Melchior-Clausen syndrome (DMC), a severe autosomal recessive skeletal disorder with mental retardation, is caused by mutation of the gene encoding Dymeclin (DYM). Employing patient fibroblasts with mutations characterized at the genomic and, for the first time, transcript level, we identified profound disruption of Golgi organization as a pathogenic feature, resolved by transfection of heterologous wild-type Dymeclin. Collagen targeting appeared defective in DMC cells leading to near complete absence of cell surface collagen fibers. DMC cells have an elevated apoptotic index (P< 0.01) likely due to a stress response contingent upon Golgi-related trafficking defects. We performed spatiotemporal mapping of Dymeclin expression in zebrafish embryos and identified high levels of transcript in brain and cartilage during early development. Finally, in a chondrocyte cDNA library, we identified two novel secretion pathway proteins as Dymeclin interacting partners: GOLM1 and PPIB. Together these data identify the role of Dymeclin in secretory pathways essential to endochondral bone formation during early development.

30. Characterization of the BMPR2 5'-untranslated region and a novel mutation in pulmonary hypertension

Author

Aldred, Micheala A, Machado, Rajiv D., James, Victoria, Morrell, Nicholas W., Trembath, Richard C., Aldred, Micheala A, Machado, Rajiv D., James, Victoria, Morrell, Nicholas W., and Trembath, Richard C.

Abstract

RATIONALE: Familial pulmonary arterial hypertension results from heterozygous inactivating mutations of the BMPR2 gene. Traditional mutation analysis identifies pathogenic mutations in some 70% of linked families. We hypothesized that the apparent shortfall is due to mutations located in the promoter region of the gene, resulting in abnormal gene regulation. OBJECTIVES: To identify mutations in untranslated sequence regulating BMPR2 transcription. METHODS: DNA upstream of the coding region was analyzed by direct sequencing in 16 families. Reverse transcription-polymerase chain reaction analysis and rapid amplification of cDNA ends of normal human lung RNA were used to investigate transcription of this region. Transcript levels were assessed by allele-specific expression analysis and inhibition of nonsense-mediated decay in lymphoblastoid cell lines. MEASUREMENTS AND MAIN RESULTS: The wild-type transcriptional start site of BMPR2 was defined, 1,148 bp upstream of the ATG. Within this region, we identified a double-substitution mutation, predicted to form a cryptic translational start site, in one family. The mutant transcript contains a premature stop codon predicted to trigger nonsense-mediated decay. Expression analysis in the patient's cell line indeed showed reduced expression of the mutant transcript that could be restored to normal by inhibiting nonsense-mediated decay. CONCLUSIONS: Activation of a cryptic translation initiation site is a novel mutational mechanism in this disorder. These results demonstrate that the 5'-untranslated region of BMPR2 is considerably longer than previously thought, emphasizing the need to fully characterize the BMPR2 promoter and the importance of analyzing noncoding regions in patients with pulmonary arterial hypertension who are negative for mutations within the coding region and intron-exon junctions.

31. Elevated levels of inflammatory cytokines predict survival in idiopathic and familial pulmonary arterial hypertension

Author

Soon, Elaine, Holmes, Alan M., Treacy, Carmen M., Doughty, Natalie J., Southgate, Laura, Machado, Rajiv D., Trembath, Richard C., Jennings, Simon, Barker, Lucy, Nicklin, Paul, Walker, Christoph, Budd, David C., Pepke-Zaba, Joanna, Morrell, Nicholas W., Soon, Elaine, Holmes, Alan M., Treacy, Carmen M., Doughty, Natalie J., Southgate, Laura, Machado, Rajiv D., Trembath, Richard C., Jennings, Simon, Barker, Lucy, Nicklin, Paul, Walker, Christoph, Budd, David C., Pepke-Zaba, Joanna, and Morrell, Nicholas W.

Abstract

BACKGROUND: Inflammation is a feature of pulmonary arterial hypertension (PAH), and increased circulating levels of cytokines are reported in patients with PAH. However, to date, no information exists on the significance of elevated cytokines or their potential as biomarkers. We sought to determine the levels of a range of cytokines in PAH and to examine their impact on survival and relationship to hemodynamic indexes. METHODS AND RESULTS: We measured levels of serum cytokines (tumor necrosis factor-alpha, interferon-gamma and interleukin-1beta, -2, -4, -5, -6, -8, -10, -12p70, and -13) using ELISAs in idiopathic and heritable PAH patients (n=60). Concurrent clinical data included hemodynamics, 6-minute walk distance, and survival time from sampling to death or transplantation. Healthy volunteers served as control subjects (n=21). PAH patients had significantly higher levels of interleukin-1beta, -2, -4, -6, -8, -10, and -12p70 and tumor necrosis factor-alpha compared with healthy control subjects. Kaplan-Meier analysis showed that levels of interleukin-6, 8, 10, and 12p70 predicted survival in patients. For example, 5-year survival with interleukin-6 levels of >9 pg/mL was 30% compared with 63% for patients with levels < or = 9 pg/mL (P=0.008). In this PAH cohort, cytokine levels were superior to traditional markers of prognosis such as 6-minute walk distance and hemodynamics. CONCLUSIONS: This study illustrates dysregulation of a broad range of inflammatory mediators in idiopathic and familial PAH and demonstrates that cytokine levels have a previously unrecognized impact on patient survival. They may prove to be useful biomarkers and provide insight into the contribution of inflammation in PAH.

32. Mutations in FRMD7, a newly identified member of the FERM family, cause X-linked idiopathic congenital nystagmus

Author

Tarpey, Patrick, Thomas, Shery, Sarvananthan, Nagini, Mallya, Uma, Lisgo, Steven, Talbot, Chris J., Roberts, Eryl O., Awan, Musarat, Surendran, Mylvaganam, McLean, Rebecca J., Reinecke, Robert D., Langmann, Andrea, Lindner, Susanne, Koch, Martina, Jain, Sunila, Woodruff, Geoffrey, Gale, Richard P., Bastawrous, Andrew, Degg, Chris, Droutsas, Konstantinos, Asproudis, Ioannis, Zubcov, Alina A., Pieh, Christina, Veal, Colin D., Machado, Rajiv D., Backhouse, Oliver C., Baumber, Laura, Constantinescu, Cris S., Brodsky, Michael C., Hunter, David G., Hertle, Richard W., Read, Randy J., Edkins, Sarah, O'Meara, Sarah, Parker, Adrian, Stevens, Claire, Teague, Jon, Wooster, Richard, Futreal, P. Andrew, Trembath, Richard C., Stratton, Michael R., Raymond, F. Lucy, Gottlob, Irene, Tarpey, Patrick, Thomas, Shery, Sarvananthan, Nagini, Mallya, Uma, Lisgo, Steven, Talbot, Chris J., Roberts, Eryl O., Awan, Musarat, Surendran, Mylvaganam, McLean, Rebecca J., Reinecke, Robert D., Langmann, Andrea, Lindner, Susanne, Koch, Martina, Jain, Sunila, Woodruff, Geoffrey, Gale, Richard P., Bastawrous, Andrew, Degg, Chris, Droutsas, Konstantinos, Asproudis, Ioannis, Zubcov, Alina A., Pieh, Christina, Veal, Colin D., Machado, Rajiv D., Backhouse, Oliver C., Baumber, Laura, Constantinescu, Cris S., Brodsky, Michael C., Hunter, David G., Hertle, Richard W., Read, Randy J., Edkins, Sarah, O'Meara, Sarah, Parker, Adrian, Stevens, Claire, Teague, Jon, Wooster, Richard, Futreal, P. Andrew, Trembath, Richard C., Stratton, Michael R., Raymond, F. Lucy, and Gottlob, Irene

Abstract

Idiopathic congenital nystagmus is characterized by involuntary, periodic, predominantly horizontal oscillations of both eyes. We identified 22 mutations in FRMD7 in 26 families with X-linked idiopathic congenital nystagmus. Screening of 42 singleton cases of idiopathic congenital nystagmus (28 male, 14 females) yielded three mutations (7%). We found restricted expression of FRMD7 in human embryonic brain and developing neural retina, suggesting a specific role in the control of eye movement and gaze stability.

33. Functional analysis of bone morphogenetic protein type II receptor mutations underlying primary pulmonary hypertension

Author

Rudarakanchana, Nung, Flanagan, Julia A., Chen, Hailan, Upton, Paul D., Machado, Rajiv, Patel, D., Trembath, Richard C., Morrell, Nicholas W., Rudarakanchana, Nung, Flanagan, Julia A., Chen, Hailan, Upton, Paul D., Machado, Rajiv, Patel, D., Trembath, Richard C., and Morrell, Nicholas W.

Abstract

A wide range of mutations in the type II receptor for bone morphogenetic protein (BMPR-II) have been shown to underlie primary pulmonary hypertension. To determine the mechanism of altered BMPR-II function, we employed transient transfection studies in cell lines and primary cultures of pulmonary vascular smooth muscle cells using green fluorescent protein (GFP)-tagged wild-type and mutant BMPR2 constructs and confocal microscopy to localize receptors. Substitution of cysteine residues in the ligand binding or kinase domain prevented trafficking of BMPR-II to the cell surface, and reduced binding of (125)I-BMP4. In addition, transfection of cysteine-substituted BMPR-II markedly reduced basal and BMP4-stimulated transcriptional activity of a BMP/Smad responsive luciferase reporter gene (3GC2wt-Lux), compared with wild-type BMPR-II, suggesting a dominant-negative effect of these mutants on Smad signalling. In contrast, BMPR-II containing non-cysteine substitutions in the kinase domain were localized to the cell membrane, although these also suppressed the activity of 3GC2wt-Lux. Interestingly, BMPR-II mutations within the cytoplasmic tail trafficked to the cell surface, but retained the ability to activate 3GC2wt-Lux. Transfection of mutant, but not wild-type, constructs into a mouse epithelial cell line (NMuMG cells) led to activation of p38(MAPK) and increased serum-induced proliferation compared with the wild-type receptor, which was partly p38(MAPK)-dependent. We conclude that mutations in BMPR-II heterogeneously inhibit BMP/Smad-mediated signalling by diverse molecular mechanisms. However, all mutants studied demonstrate a gain of function involving upregulation of p38(MAPK)-dependent proproliferative pathways.

34. Mutations of the TGF-beta type II receptor BMPR2 in pulmonary arterial hypertension

Author

Machado, Rajiv D., Aldred, Micheala A., James, Victoria, Harrison, Rachel E., Patel, Bhakti, Schwalbe, Edward C., Gruenig, Ekkehard, Janssen, Bart, Koehler, Rolf, Seeger, Werner, Eickelberg, Oliver, Olschewski, Horst, Elliott, C. Gregory, Glissmeyer, Eric, Carlquist, John, Kim, Miryoung, Torbicki, Adam, Fijalkowska, Anna, Szewczyk, Grzegorz, Parma, Jasmine, Abramowicz, Marc J., Galie, Nazzareno, Morisaki, Hiroko, Kyotani, Shingo, Nakanishi, Norifumi, Morisaki, Takayuki, Humbert, Marc, Simonneau, Gerald, Sitbon, Olivier, Soubrier, Florent, Coulet, Florence, Morrell, Nicholas W., Trembath, Richard C., Machado, Rajiv D., Aldred, Micheala A., James, Victoria, Harrison, Rachel E., Patel, Bhakti, Schwalbe, Edward C., Gruenig, Ekkehard, Janssen, Bart, Koehler, Rolf, Seeger, Werner, Eickelberg, Oliver, Olschewski, Horst, Elliott, C. Gregory, Glissmeyer, Eric, Carlquist, John, Kim, Miryoung, Torbicki, Adam, Fijalkowska, Anna, Szewczyk, Grzegorz, Parma, Jasmine, Abramowicz, Marc J., Galie, Nazzareno, Morisaki, Hiroko, Kyotani, Shingo, Nakanishi, Norifumi, Morisaki, Takayuki, Humbert, Marc, Simonneau, Gerald, Sitbon, Olivier, Soubrier, Florent, Coulet, Florence, Morrell, Nicholas W., and Trembath, Richard C.

Abstract

Pulmonary arterial hypertension (PAH) is clinically characterized by a sustained elevation in mean pulmonary artery pressure leading to significant morbidity and mortality. The disorder is typically sporadic, and in such cases the term idiopathic PAH (IPAH) is used. However, cases that occur within families (familial PAH (FPAH)) display similar clinical and histopathological features, suggesting a common etiology. Heterozygous mutations of a type II member of the TGF-beta cell signaling superfamily known as BMPR2 on chromosome 2q33 have been identified in many kindreds with FPAH, yet display both reduced penetrance and sex bias. This report presents the compilation of data for 144 distinct mutations that alter the coding sequence of the BMPR2 gene identified in 210 independent PAH subjects. This large data set characterizes the extent of sequence variation and reveals that the majority (71%) of mutations in FPAH and IPAH comprise nonsense, frameshift, and splice-site defects, and gene rearrangements. These predict premature termination of the transcript with likely loss through the process of nonsense-mediated decay (NMD). A total of 44 missense mutations were identified that substitute amino acid residues at highly conserved sites within recognized functional domains of the mature receptor. We assess this category of mutations in the context of their heterogeneous effects on cell signaling when assayed by in vitro cell-based systems. Disease-causing mutation hot-spots within BMPR2 are summarized. Taken together, these observations are likely to aid in the development of targeted mutation detection strategies relevant for patient management. Finally, we examine the age- and sex-dependent reduced penetrance of BMPR2 mutations by reviewing bmpr2 animal models and the requirement for additional genetic and/or environmental modifiers of disease. In conclusion, these data provide compelling genetic evidence that haploinsufficiency is the predominant molecular mechanism u

35. Gain-of-function mutations of ARHGAP31, a Cdc42/Rac1 GTPase regulator, cause syndromic cutis aplasia and limb anomalies

Author

Southgate, Laura, Machado, Rajiv D., Snape, Katie M, Primeau, Martin, Dafou, Dimitra, Ruddy, Deborah M, Branney, Peter A, Fisher, Malcolm, Lee, Grace J., Simpson, Michael A., He, Yi, Bradshaw, Teisha Y., Blaumeiser, Bettina, Winship, William S., Reardon, Willie, Maher, Eamonn R., FitzPatrick, David R., Wuyts, Wim, Zenker, Martin, Lamarche-Vane, Nathalie, Trembath, Richard C., Southgate, Laura, Machado, Rajiv D., Snape, Katie M, Primeau, Martin, Dafou, Dimitra, Ruddy, Deborah M, Branney, Peter A, Fisher, Malcolm, Lee, Grace J., Simpson, Michael A., He, Yi, Bradshaw, Teisha Y., Blaumeiser, Bettina, Winship, William S., Reardon, Willie, Maher, Eamonn R., FitzPatrick, David R., Wuyts, Wim, Zenker, Martin, Lamarche-Vane, Nathalie, and Trembath, Richard C.

Abstract

Regulation of cell proliferation and motility is essential for normal development. The Rho family of GTPases plays a critical role in the control of cell polarity and migration by effecting the cytoskeleton, membrane trafficking, and cell adhesion. We investigated a recognized developmental disorder, Adams-Oliver syndrome (AOS), characterized by the combination of aplasia cutis congenita (ACC) and terminal transverse limb defects (TTLD). Through a genome-wide linkage analysis, we detected a locus for autosomal-dominant ACC-TTLD on 3q generating a maximum LOD score of 4.93 at marker rs1464311. Candidate-gene- and exome-based sequencing led to the identification of independent premature truncating mutations in the terminal exon of the Rho GTPase-activating protein 31 gene, ARHGAP31, which encodes a Cdc42/Rac1 regulatory protein. Mutant transcripts are stable and increase ARHGAP31 activity in vitro through a gain-of-function mechanism. Constitutively active ARHGAP31 mutations result in a loss of available active Cdc42 and consequently disrupt actin cytoskeletal structures. Arhgap31 expression in the mouse is substantially restricted to the terminal limb buds and craniofacial processes during early development; these locations closely mirror the sites of impaired organogenesis that characterize this syndrome. These data identify the requirement for regulated Cdc42 and/or Rac1 signaling processes during early human development.