Mutations in IFT172 cause isolated retinal degeneration and Bardet–Biedl syndrome
Primary cilia are sensory organelles present on most mammalian cells. The assembly and maintenance of primary cilia are facilitated by intraflagellar transport (IFT), a bidirectional protein trafficking along the cilium. Mutations in genes coding for IFT components have been associated with a group...
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| Published in | Human molecular genetics Vol. 24; no. 1; pp. 230 - 242 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Oxford University Press (OUP)
01.01.2015
Oxford University Press |
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| Online Access | Get full text |
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| Abstract | Primary cilia are sensory organelles present on most mammalian cells. The assembly and maintenance of primary cilia are facilitated by intraflagellar transport (IFT), a bidirectional protein trafficking along the cilium. Mutations in genes coding for IFT components have been associated with a group of diseases called ciliopathies. These genetic disorders can affect a variety of organs including the retina. Using whole exome sequencing in three families, we identified mutations in Intraflagellar Transport 172 Homolog [IFT172 (Chlamydomonas)] that underlie an isolated retinal degeneration and Bardet-Biedl syndrome. Extensive functional analyses of the identified mutations in cell culture, rat retina and in zebrafish demonstrated their hypomorphic or null nature. It has recently been reported that mutations in IFT172 cause a severe ciliopathy syndrome involving skeletal, renal, hepatic and retinal abnormalities (Jeune and Mainzer-Saldino syndromes). Here, we report for the first time that mutations in this gene can also lead to an isolated form of retinal degeneration. The functional data for the mutations can partially explain milder phenotypes; however, the involvement of modifying alleles in the IFT172-associated phenotypes cannot be excluded. These findings expand the spectrum of disease associated with mutations in IFT172 and suggest that mutations in genes originally reported to be associated with syndromic ciliopathies should also be considered in subjects with non-syndromic retinal dystrophy. |
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| AbstractList | Primary cilia are sensory organelles present on most mammalian cells. The assembly and maintenance of primary cilia are facilitated by intraflagellar transport (IFT), a bidirectional protein trafficking along the cilium. Mutations in genes coding for IFT components have been associated with a group of diseases called ciliopathies. These genetic disorders can affect a variety of organs including the retina. Using whole exome sequencing in three families, we identified mutations in
Intraflagellar Transport 172 Homolog
[
IFT172
(
Chlamydomonas
)] that underlie an isolated retinal degeneration and Bardet–Biedl syndrome. Extensive functional analyses of the identified mutations in cell culture, rat retina and in zebrafish demonstrated their hypomorphic or null nature. It has recently been reported that mutations in
IFT172
cause a severe ciliopathy syndrome involving skeletal, renal, hepatic and retinal abnormalities (Jeune and Mainzer-Saldino syndromes). Here, we report for the first time that mutations in this gene can also lead to an isolated form of retinal degeneration. The functional data for the mutations can partially explain milder phenotypes; however, the involvement of modifying alleles in the
IFT172
-associated phenotypes cannot be excluded. These findings expand the spectrum of disease associated with mutations in
IFT172
and suggest that mutations in genes originally reported to be associated with syndromic ciliopathies should also be considered in subjects with non-syndromic retinal dystrophy. Primary cilia are sensory organelles present on most mammalian cells. The assembly and maintenance of primary cilia are facilitated by intraflagellar transport (IFT), a bidirectional protein trafficking along the cilium. Mutations in genes coding for IFT components have been associated with a group of diseases called ciliopathies. These genetic disorders can affect a variety of organs including the retina. Using whole exome sequencing in three families, we identified mutations in Intraflagellar Transport 172 Homolog[IFT172(Chlamydomonas)] that underlie an isolated retinal degeneration and Bardet Biedl syndrome. Extensive functional analyses of the identified mutations in cell culture, rat retina and in zebrafish demonstrated their hypomorphic or null nature. It has recently been reported that mutations in IFT1 72 cause a severe ciliopathy syndrome involving skeletal, renal, hepatic and retinal abnormalities (Jeune and Mainzer-Saldino syndromes). Here, we report for the first time that mutations in this gene can also lead to an isolated form of retinal degeneration. The functional data for the mutations can partially explain milder phenotypes; however, the involvement of modifying alleles in the 1FT172-associated phenotypes cannot be excluded. These findings expand the spectrum of disease associated with mutations in IFT172and suggest that mutations in genes originally reported to be associated with syndromic ciliopathies should also be considered in subjects with non-syndromic retinal dystrophy. Primary cilia are sensory organelles present on most mammalian cells. The assembly and maintenance of primary cilia are facilitated by intraflagellar transport (IFT), a bidirectional protein trafficking along the cilium. Mutations in genes coding for IFT components have been associated with a group of diseases called ciliopathies. These genetic disorders can affect a variety of organs including the retina. Using whole exome sequencing in three families, we identified mutations in Intraflagellar Transport 172 Homolog [IFT172 (Chlamydomonas)] that underlie an isolated retinal degeneration and Bardet-Biedl syndrome. Extensive functional analyses of the identified mutations in cell culture, rat retina and in zebrafish demonstrated their hypomorphic or null nature. It has recently been reported that mutations in IFT172 cause a severe ciliopathy syndrome involving skeletal, renal, hepatic and retinal abnormalities (Jeune and Mainzer-Saldino syndromes). Here, we report for the first time that mutations in this gene can also lead to an isolated form of retinal degeneration. The functional data for the mutations can partially explain milder phenotypes; however, the involvement of modifying alleles in the IFT172-associated phenotypes cannot be excluded. These findings expand the spectrum of disease associated with mutations in IFT172 and suggest that mutations in genes originally reported to be associated with syndromic ciliopathies should also be considered in subjects with non-syndromic retinal dystrophy.Primary cilia are sensory organelles present on most mammalian cells. The assembly and maintenance of primary cilia are facilitated by intraflagellar transport (IFT), a bidirectional protein trafficking along the cilium. Mutations in genes coding for IFT components have been associated with a group of diseases called ciliopathies. These genetic disorders can affect a variety of organs including the retina. Using whole exome sequencing in three families, we identified mutations in Intraflagellar Transport 172 Homolog [IFT172 (Chlamydomonas)] that underlie an isolated retinal degeneration and Bardet-Biedl syndrome. Extensive functional analyses of the identified mutations in cell culture, rat retina and in zebrafish demonstrated their hypomorphic or null nature. It has recently been reported that mutations in IFT172 cause a severe ciliopathy syndrome involving skeletal, renal, hepatic and retinal abnormalities (Jeune and Mainzer-Saldino syndromes). Here, we report for the first time that mutations in this gene can also lead to an isolated form of retinal degeneration. The functional data for the mutations can partially explain milder phenotypes; however, the involvement of modifying alleles in the IFT172-associated phenotypes cannot be excluded. These findings expand the spectrum of disease associated with mutations in IFT172 and suggest that mutations in genes originally reported to be associated with syndromic ciliopathies should also be considered in subjects with non-syndromic retinal dystrophy. Primary cilia are sensory organelles present on most mammalian cells. The assembly and maintenance of primary cilia are facilitated by intraflagellar transport (IFT), a bidirectional protein trafficking along the cilium. Mutations in genes coding for IFT components have been associated with a group of diseases called ciliopathies. These genetic disorders can affect a variety of organs including the retina. Using whole exome sequencing in three families, we identified mutations in Intraflagellar Transport 172 Homolog [IFT172 (Chlamydomonas)] that underlie an isolated retinal degeneration and Bardet-Biedl syndrome. Extensive functional analyses of the identified mutations in cell culture, rat retina and in zebrafish demonstrated their hypomorphic or null nature. It has recently been reported that mutations in IFT172 cause a severe ciliopathy syndrome involving skeletal, renal, hepatic and retinal abnormalities (Jeune and Mainzer-Saldino syndromes). Here, we report for the first time that mutations in this gene can also lead to an isolated form of retinal degeneration. The functional data for the mutations can partially explain milder phenotypes; however, the involvement of modifying alleles in the IFT172-associated phenotypes cannot be excluded. These findings expand the spectrum of disease associated with mutations in IFT172 and suggest that mutations in genes originally reported to be associated with syndromic ciliopathies should also be considered in subjects with non-syndromic retinal dystrophy. |
| Author | Liu, Qin Lancelot, Marie-Elise Zhang, Qi Lonjou, Christine Falk, Marni J. Carpentier, Wassila Collin, Rob W.J. Leroy, Bart P. Gai, Xiaowu Consugar, Mark Antonio, Aline Mohand-Saïd, Saddek Siemiatkowska, Anna M. Zeitz, Christina van den Born, L. Ingeborgh Audo, Isabelle Sahel, José-Alain Cremers, Frans P.M. den Hollander, Anneke I. Place, Emily Bujakowska, Kinga M. Pierce, Eric A. |
| Author_xml | – sequence: 1 givenname: Kinga M. surname: Bujakowska fullname: Bujakowska, Kinga M. – sequence: 2 givenname: Qi surname: Zhang fullname: Zhang, Qi – sequence: 3 givenname: Anna M. surname: Siemiatkowska fullname: Siemiatkowska, Anna M. – sequence: 4 givenname: Qin surname: Liu fullname: Liu, Qin – sequence: 5 givenname: Emily surname: Place fullname: Place, Emily – sequence: 6 givenname: Marni J. surname: Falk fullname: Falk, Marni J. – sequence: 7 givenname: Mark surname: Consugar fullname: Consugar, Mark – sequence: 8 givenname: Marie-Elise surname: Lancelot fullname: Lancelot, Marie-Elise – sequence: 9 givenname: Aline surname: Antonio fullname: Antonio, Aline – sequence: 10 givenname: Christine surname: Lonjou fullname: Lonjou, Christine – sequence: 11 givenname: Wassila surname: Carpentier fullname: Carpentier, Wassila – sequence: 12 givenname: Saddek surname: Mohand-Saïd fullname: Mohand-Saïd, Saddek – sequence: 13 givenname: Anneke I. surname: den Hollander fullname: den Hollander, Anneke I. – sequence: 14 givenname: Frans P.M. surname: Cremers fullname: Cremers, Frans P.M. – sequence: 15 givenname: Bart P. surname: Leroy fullname: Leroy, Bart P. – sequence: 16 givenname: Xiaowu surname: Gai fullname: Gai, Xiaowu – sequence: 17 givenname: José-Alain surname: Sahel fullname: Sahel, José-Alain – sequence: 18 givenname: L. Ingeborgh surname: van den Born fullname: van den Born, L. Ingeborgh – sequence: 19 givenname: Rob W.J. surname: Collin fullname: Collin, Rob W.J. – sequence: 20 givenname: Christina surname: Zeitz fullname: Zeitz, Christina – sequence: 21 givenname: Isabelle surname: Audo fullname: Audo, Isabelle – sequence: 22 givenname: Eric A. surname: Pierce fullname: Pierce, Eric A. |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/25168386$$D View this record in MEDLINE/PubMed https://hal.science/hal-01514441$$DView record in HAL |
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| PublicationTitle | Human molecular genetics |
| PublicationTitleAlternate | Hum Mol Genet |
| PublicationYear | 2015 |
| Publisher | Oxford University Press (OUP) Oxford University Press |
| Publisher_xml | – name: Oxford University Press (OUP) – name: Oxford University Press |
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| SubjectTerms | Adolescent Adult Animals Bardet-Biedl Syndrome - genetics Bardet-Biedl Syndrome - pathology Biochemistry, Molecular Biology Carrier Proteins - genetics Cells, Cultured Exome Female Genomics High-Throughput Nucleotide Sequencing Humans Life Sciences Male Mutation Pedigree Rats Retina - metabolism Retina - pathology Retinitis Pigmentosa - genetics Retinitis Pigmentosa - pathology Sequence Analysis, DNA Young Adult Zebrafish |
| Title | Mutations in IFT172 cause isolated retinal degeneration and Bardet–Biedl syndrome |
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