Mutations in radial spoke head protein genes RSPH9 and RSPH4A cause primary ciliary dyskinesia with central-microtubular-pair abnormalities

Victoria H. Castleman; Leila Romio; Rahul Chodhari; Robert A. Hirst; Sandra C.P. de Castro; Keith A. Parker; Patricia Ybot-Gonzalez; Richard D. Emes; Stephen W. Wilson; Colin Wallis; Colin A. Johnson; Rene J. Herrera; Andrew Rutman; Mellisa Dixon; Amelia Shoemark; Andrew Bush; Claire Hogg; R. Mark Gardiner; Orit Reish; Nicholas D.E. Greene; Christopher O'Callaghan; Saul Purton; Eddie M.K. Chung; Hannah M. Mitchison

doi:10.1016/j.ajhg.2009.01.011

Mutations in radial spoke head protein genes RSPH9 and RSPH4A cause primary ciliary dyskinesia with central-microtubular-pair abnormalities

Victoria H. Castleman, Leila Romio, Rahul Chodhari, Robert A. Hirst, Sandra C.P. de Castro, Keith A. Parker, Patricia Ybot-Gonzalez, Richard D. Emes, Stephen W. Wilson, Colin Wallis, Colin A. Johnson, Rene J. Herrera, Andrew Rutman, Mellisa Dixon, Amelia Shoemark, Andrew Bush, Claire Hogg, R. Mark Gardiner, Orit Reish, Nicholas D.E. GreeneChristopher O'Callaghan, Saul Purton, Eddie M.K. Chung, Hannah M. Mitchison

Clinical Departments

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Abstract

Primary ciliary dyskinesia (PCD) is a genetically heterogeneous inherited disorder arising from dysmotility of motile cilia and sperm. This is associated with a variety of ultrastructural defects of the cilia and sperm axoneme that affect movement, leading to clinical consequences on respiratory-tract mucociliary clearance and lung function, fertility, and left-right body-axis determination. We performed whole-genome SNP-based linkage analysis in seven consanguineous families with PCD and central-microtubular-pair abnormalities. This identified two loci, in two families with intermittent absence of the central-pair structure (chromosome 6p21.1, Zmax 6.7) and in five families with complete absence of the central pair (chromosome 6q22.1, Zmax 7.0). Mutations were subsequently identified in two positional candidate genes, RSPH9 on chromosome 6p21.1 and RSPH4A on chromosome 6q22.1. Haplotype analysis identified a common ancestral founder effect RSPH4A mutation present in UK-Pakistani pedigrees. Both RSPH9 and RSPH4A encode protein components of the axonemal radial spoke head. In situ hybridization of murine Rsph9 shows gene expression restricted to regions containing motile cilia. Investigation of the effect of knockdown or mutations of RSPH9 orthologs in zebrafish and Chlamydomonas indicate that radial spoke head proteins are important in maintaining normal movement in motile, "9+2"-structure cilia and flagella. This effect is rescued by reintroduction of gene expression for restoration of a normal beat pattern in zebrafish. Disturbance in function of these genes was not associated with defects in left-right axis determination in humans or zebrafish.

Original language	English
Pages (from-to)	197-209
Number of pages	13
Journal	American Journal of Human Genetics
Volume	84
Issue number	2
DOIs	https://doi.org/10.1016/j.ajhg.2009.01.011
State	Published - 8 Aug 2008

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10.1016/j.ajhg.2009.01.011

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Castleman, V. H., Romio, L., Chodhari, R., Hirst, R. A., de Castro, S. C. P., Parker, K. A., Ybot-Gonzalez, P., Emes, R. D., Wilson, S. W., Wallis, C., Johnson, C. A., Herrera, R. J., Rutman, A., Dixon, M., Shoemark, A., Bush, A., Hogg, C., Gardiner, R. M., Reish, O., ... Mitchison, H. M. (2008). Mutations in radial spoke head protein genes RSPH9 and RSPH4A cause primary ciliary dyskinesia with central-microtubular-pair abnormalities. American Journal of Human Genetics, 84(2), 197-209. https://doi.org/10.1016/j.ajhg.2009.01.011

Castleman, Victoria H. ; Romio, Leila ; Chodhari, Rahul ; Hirst, Robert A. ; de Castro, Sandra C.P. ; Parker, Keith A. ; Ybot-Gonzalez, Patricia ; Emes, Richard D. ; Wilson, Stephen W. ; Wallis, Colin ; Johnson, Colin A. ; Herrera, Rene J. ; Rutman, Andrew ; Dixon, Mellisa ; Shoemark, Amelia ; Bush, Andrew ; Hogg, Claire ; Gardiner, R. Mark ; Reish, Orit ; Greene, Nicholas D.E. ; O'Callaghan, Christopher ; Purton, Saul ; Chung, Eddie M.K. ; Mitchison, Hannah M. / Mutations in radial spoke head protein genes RSPH9 and RSPH4A cause primary ciliary dyskinesia with central-microtubular-pair abnormalities. In: American Journal of Human Genetics. 2008 ; Vol. 84, No. 2. pp. 197-209.

@article{aeaf72055b264d0a91ce2e744c9ec4a9,

title = "Mutations in radial spoke head protein genes RSPH9 and RSPH4A cause primary ciliary dyskinesia with central-microtubular-pair abnormalities",

abstract = "Primary ciliary dyskinesia (PCD) is a genetically heterogeneous inherited disorder arising from dysmotility of motile cilia and sperm. This is associated with a variety of ultrastructural defects of the cilia and sperm axoneme that affect movement, leading to clinical consequences on respiratory-tract mucociliary clearance and lung function, fertility, and left-right body-axis determination. We performed whole-genome SNP-based linkage analysis in seven consanguineous families with PCD and central-microtubular-pair abnormalities. This identified two loci, in two families with intermittent absence of the central-pair structure (chromosome 6p21.1, Zmax 6.7) and in five families with complete absence of the central pair (chromosome 6q22.1, Zmax 7.0). Mutations were subsequently identified in two positional candidate genes, RSPH9 on chromosome 6p21.1 and RSPH4A on chromosome 6q22.1. Haplotype analysis identified a common ancestral founder effect RSPH4A mutation present in UK-Pakistani pedigrees. Both RSPH9 and RSPH4A encode protein components of the axonemal radial spoke head. In situ hybridization of murine Rsph9 shows gene expression restricted to regions containing motile cilia. Investigation of the effect of knockdown or mutations of RSPH9 orthologs in zebrafish and Chlamydomonas indicate that radial spoke head proteins are important in maintaining normal movement in motile, {"}9+2{"}-structure cilia and flagella. This effect is rescued by reintroduction of gene expression for restoration of a normal beat pattern in zebrafish. Disturbance in function of these genes was not associated with defects in left-right axis determination in humans or zebrafish.",

author = "Castleman, {Victoria H.} and Leila Romio and Rahul Chodhari and Hirst, {Robert A.} and {de Castro}, {Sandra C.P.} and Parker, {Keith A.} and Patricia Ybot-Gonzalez and Emes, {Richard D.} and Wilson, {Stephen W.} and Colin Wallis and Johnson, {Colin A.} and Herrera, {Rene J.} and Andrew Rutman and Mellisa Dixon and Amelia Shoemark and Andrew Bush and Claire Hogg and Gardiner, {R. Mark} and Orit Reish and Greene, {Nicholas D.E.} and Christopher O'Callaghan and Saul Purton and Chung, {Eddie M.K.} and Mitchison, {Hannah M.}",

note = "Funding Information: We are grateful to the families for their involvement in this study. We thank the physicians involved in patient recruitment and sampling, in particular Robert Mueller, Maggie Meeks, Astrid Weber, and Yannick Crow. We thank Sandra Strautnieks for providing Arabic control samples. We are grateful to Peter Scambler for critical reading of the manuscript. We thank Lucille Fressynet, Chloe Cheung, Chloe McCann, Kate Everett, and Barry Choiza for technical assistance. We thank Elspeth Bruford at the HUGO Gene Nomenclature Committee, European Molecular Biology Laboratory-European Bioinformatics Institute, for much help with radial-spoke nomenclature and renaming. We are grateful to A. Rodaway, King's College London, for the p{\ss}UT3 rescue vector, to H. Omran for the Dnah5 in situ probe, and to the following for release of prepublication proteomic and genomic data sets, in addition to bioinformatics help: G. Pazour, K. Gull, P. McKean, and S. Brody. This work was supported by the Medical Research Council (UK), the Wellcome Trust (UK), the Milena Carvajal-Prokartagener Foundation (Switzerland), the PCD Foundation (USA), and the PCD Family Support Group (UK). ",

year = "2008",

month = aug,

day = "8",

doi = "10.1016/j.ajhg.2009.01.011",

language = "אנגלית",

volume = "84",

pages = "197--209",

journal = "American Journal of Human Genetics",

issn = "0002-9297",

publisher = "Cell Press",

number = "2",

}

Castleman, VH, Romio, L, Chodhari, R, Hirst, RA, de Castro, SCP, Parker, KA, Ybot-Gonzalez, P, Emes, RD, Wilson, SW, Wallis, C, Johnson, CA, Herrera, RJ, Rutman, A, Dixon, M, Shoemark, A, Bush, A, Hogg, C, Gardiner, RM, Reish, O, Greene, NDE, O'Callaghan, C, Purton, S, Chung, EMK & Mitchison, HM 2008, 'Mutations in radial spoke head protein genes RSPH9 and RSPH4A cause primary ciliary dyskinesia with central-microtubular-pair abnormalities', American Journal of Human Genetics, vol. 84, no. 2, pp. 197-209. https://doi.org/10.1016/j.ajhg.2009.01.011

Mutations in radial spoke head protein genes RSPH9 and RSPH4A cause primary ciliary dyskinesia with central-microtubular-pair abnormalities. / Castleman, Victoria H.; Romio, Leila; Chodhari, Rahul; Hirst, Robert A.; de Castro, Sandra C.P.; Parker, Keith A.; Ybot-Gonzalez, Patricia; Emes, Richard D.; Wilson, Stephen W.; Wallis, Colin; Johnson, Colin A.; Herrera, Rene J.; Rutman, Andrew; Dixon, Mellisa; Shoemark, Amelia; Bush, Andrew; Hogg, Claire; Gardiner, R. Mark; Reish, Orit; Greene, Nicholas D.E.; O'Callaghan, Christopher; Purton, Saul; Chung, Eddie M.K.; Mitchison, Hannah M.

In: American Journal of Human Genetics, Vol. 84, No. 2, 08.08.2008, p. 197-209.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Mutations in radial spoke head protein genes RSPH9 and RSPH4A cause primary ciliary dyskinesia with central-microtubular-pair abnormalities

AU - Castleman, Victoria H.

AU - Romio, Leila

AU - Chodhari, Rahul

AU - Hirst, Robert A.

AU - de Castro, Sandra C.P.

AU - Parker, Keith A.

AU - Ybot-Gonzalez, Patricia

AU - Emes, Richard D.

AU - Wilson, Stephen W.

AU - Wallis, Colin

AU - Johnson, Colin A.

AU - Herrera, Rene J.

AU - Rutman, Andrew

AU - Dixon, Mellisa

AU - Shoemark, Amelia

AU - Bush, Andrew

AU - Hogg, Claire

AU - Gardiner, R. Mark

AU - Reish, Orit

AU - Greene, Nicholas D.E.

AU - O'Callaghan, Christopher

AU - Purton, Saul

AU - Chung, Eddie M.K.

AU - Mitchison, Hannah M.

N1 - Funding Information: We are grateful to the families for their involvement in this study. We thank the physicians involved in patient recruitment and sampling, in particular Robert Mueller, Maggie Meeks, Astrid Weber, and Yannick Crow. We thank Sandra Strautnieks for providing Arabic control samples. We are grateful to Peter Scambler for critical reading of the manuscript. We thank Lucille Fressynet, Chloe Cheung, Chloe McCann, Kate Everett, and Barry Choiza for technical assistance. We thank Elspeth Bruford at the HUGO Gene Nomenclature Committee, European Molecular Biology Laboratory-European Bioinformatics Institute, for much help with radial-spoke nomenclature and renaming. We are grateful to A. Rodaway, King's College London, for the pßUT3 rescue vector, to H. Omran for the Dnah5 in situ probe, and to the following for release of prepublication proteomic and genomic data sets, in addition to bioinformatics help: G. Pazour, K. Gull, P. McKean, and S. Brody. This work was supported by the Medical Research Council (UK), the Wellcome Trust (UK), the Milena Carvajal-Prokartagener Foundation (Switzerland), the PCD Foundation (USA), and the PCD Family Support Group (UK).

PY - 2008/8/8

Y1 - 2008/8/8

N2 - Primary ciliary dyskinesia (PCD) is a genetically heterogeneous inherited disorder arising from dysmotility of motile cilia and sperm. This is associated with a variety of ultrastructural defects of the cilia and sperm axoneme that affect movement, leading to clinical consequences on respiratory-tract mucociliary clearance and lung function, fertility, and left-right body-axis determination. We performed whole-genome SNP-based linkage analysis in seven consanguineous families with PCD and central-microtubular-pair abnormalities. This identified two loci, in two families with intermittent absence of the central-pair structure (chromosome 6p21.1, Zmax 6.7) and in five families with complete absence of the central pair (chromosome 6q22.1, Zmax 7.0). Mutations were subsequently identified in two positional candidate genes, RSPH9 on chromosome 6p21.1 and RSPH4A on chromosome 6q22.1. Haplotype analysis identified a common ancestral founder effect RSPH4A mutation present in UK-Pakistani pedigrees. Both RSPH9 and RSPH4A encode protein components of the axonemal radial spoke head. In situ hybridization of murine Rsph9 shows gene expression restricted to regions containing motile cilia. Investigation of the effect of knockdown or mutations of RSPH9 orthologs in zebrafish and Chlamydomonas indicate that radial spoke head proteins are important in maintaining normal movement in motile, "9+2"-structure cilia and flagella. This effect is rescued by reintroduction of gene expression for restoration of a normal beat pattern in zebrafish. Disturbance in function of these genes was not associated with defects in left-right axis determination in humans or zebrafish.

AB - Primary ciliary dyskinesia (PCD) is a genetically heterogeneous inherited disorder arising from dysmotility of motile cilia and sperm. This is associated with a variety of ultrastructural defects of the cilia and sperm axoneme that affect movement, leading to clinical consequences on respiratory-tract mucociliary clearance and lung function, fertility, and left-right body-axis determination. We performed whole-genome SNP-based linkage analysis in seven consanguineous families with PCD and central-microtubular-pair abnormalities. This identified two loci, in two families with intermittent absence of the central-pair structure (chromosome 6p21.1, Zmax 6.7) and in five families with complete absence of the central pair (chromosome 6q22.1, Zmax 7.0). Mutations were subsequently identified in two positional candidate genes, RSPH9 on chromosome 6p21.1 and RSPH4A on chromosome 6q22.1. Haplotype analysis identified a common ancestral founder effect RSPH4A mutation present in UK-Pakistani pedigrees. Both RSPH9 and RSPH4A encode protein components of the axonemal radial spoke head. In situ hybridization of murine Rsph9 shows gene expression restricted to regions containing motile cilia. Investigation of the effect of knockdown or mutations of RSPH9 orthologs in zebrafish and Chlamydomonas indicate that radial spoke head proteins are important in maintaining normal movement in motile, "9+2"-structure cilia and flagella. This effect is rescued by reintroduction of gene expression for restoration of a normal beat pattern in zebrafish. Disturbance in function of these genes was not associated with defects in left-right axis determination in humans or zebrafish.

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U2 - 10.1016/j.ajhg.2009.01.011

DO - 10.1016/j.ajhg.2009.01.011

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C2 - 19200523

AN - SCOPUS:62649153946

VL - 84

SP - 197

EP - 209

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

SN - 0002-9297

IS - 2

ER -

Mutations in radial spoke head protein genes RSPH9 and RSPH4A cause primary ciliary dyskinesia with central-microtubular-pair abnormalities

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