Mutation Spectrum in RAB3GAP1, RAB3GAP2, and RAB18 and Genotype-Phenotype Correlations in Warburg Micro Syndrome and Martsolf Syndrome

ABSTRACT Warburg Micro syndrome and Martsolf syndrome (MS) are heterogeneous autosomal‐recessive developmental disorders characterized by brain, eye, and endocrine abnormalities. Causative biallelic germline mutations have been identified in RAB3GAP1, RAB3GAP2, or RAB18, each of which encode protein...

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Published inHuman mutation Vol. 34; no. 5; pp. 686 - 696
Main Authors Handley, Mark T., Morris-Rosendahl, Deborah J., Brown, Stephen, Macdonald, Fiona, Hardy, Carol, Bem, Danai, Carpanini, Sarah M., Borck, Guntram, Martorell, Loreto, Izzi, Claudia, Faravelli, Francesca, Accorsi, Patrizia, Pinelli, Lorenzo, Basel-Vanagaite, Lina, Peretz, Gabriela, Abdel-Salam, Ghada M.H., Zaki, Maha S., Jansen, Anna, Mowat, David, Glass, Ian, Stewart, Helen, Mancini, Grazia, Lederer, Damien, Roscioli, Tony, Giuliano, Fabienne, Plomp, Astrid S., Rolfs, Arndt, Graham, John M., Seemanova, Eva, Poo, Pilar, García-Cazorla, Àngels, Edery, Patrick, Jackson, Ian J., Maher, Eamonn R., Aligianis, Irene A.
Format Journal Article
LanguageEnglish
Published United States Blackwell Publishing Ltd 01.05.2013
John Wiley & Sons, Inc
Subjects
Amino Acid Sequence
Animals
Cataract - genetics
Cataract - pathology
Child
Child, Preschool
Genotype
Genotype & phenotype
Humans
Hypogonadism - genetics
Hypogonadism - pathology
Infant
Intellectual Disability - genetics
Intellectual Disability - pathology
Magnetic Resonance Imaging
Male
Martsolf
Micro
Molecular Sequence Data
Mutation
Mutation, Missense
Phenotype
Rab
rab GTP-Binding Proteins - chemistry
rab GTP-Binding Proteins - genetics
RAB18
rab3 GTP-Binding Proteins - chemistry
rab3 GTP-Binding Proteins - genetics
RAB3GAP1
RAB3GAP2
Sequence Homology, Amino Acid
Online AccessGet full text
ISSN1059-7794
1098-1004
1098-1004
DOI10.1002/humu.22296

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Abstract ABSTRACT Warburg Micro syndrome and Martsolf syndrome (MS) are heterogeneous autosomal‐recessive developmental disorders characterized by brain, eye, and endocrine abnormalities. Causative biallelic germline mutations have been identified in RAB3GAP1, RAB3GAP2, or RAB18, each of which encode proteins involved in membrane trafficking. This report provides an up to date overview of all known disease variants identified in 29 previously published families and 52 new families. One‐hundred and forty‐four Micro and nine Martsolf families were investigated, identifying mutations in RAB3GAP1 in 41% of cases, mutations in RAB3GAP2 in 7% of cases, and mutations in RAB18 in 5% of cases. These are listed in Leiden Open source Variation Databases, which was created by us for all three genes. Genotype–phenotype correlations for these genes have now established that the clinical phenotypes in Micro syndrome and MS represent a phenotypic continuum related to the nature and severity of the mutations present in the disease genes, with more deleterious mutations causing Micro syndrome and milder mutations causing MS. RAB18 has not yet been linked to the RAB3 pathways, but mutations in all three genes cause an indistinguishable phenotype, making it likely that there is some overlap. There is considerable genetic heterogeneity for these disorders and further gene identification will help delineate these pathways. Warburg Micro syndrome (OMIM 60018) and Martsolf syndrome (OMIM 21270) are related autosomal recessive neurodevelopmental disorders. Micro syndrome is more severe and characterized by ocular (microphthalmos, microcornea, congenital cataracts and optic atrophy) and neurodevelopmental pathology (microcephaly, polymicrogyria, hypogenesis of the corpus callosum, severe learning disability and progressive limb spasticity) and hypothalamic hypogonadism. Causative germline mutations have been identified in RAB3GAP1 (41% of families), RAB3GAP2 (7% of families) and RAB18 (5% of families) and result in a strikingly consistent phenotype.
AbstractList Warburg Micro syndrome and Martsolf syndrome (MS) are heterogeneous autosomal-recessive developmental disorders characterized by brain, eye, and endocrine abnormalities. Causative biallelic germline mutations have been identified in RAB3GAP1, RAB3GAP2, or RAB18, each of which encode proteins involved in membrane trafficking. This report provides an up to date overview of all known disease variants identified in 29 previously published families and 52 new families. One-hundred and forty-four Micro and nine Martsolf families were investigated, identifying mutations in RAB3GAP1 in 41% of cases, mutations in RAB3GAP2 in 7% of cases, and mutations in RAB18 in 5% of cases. These are listed in Leiden Open source Variation Databases, which was created by us for all three genes. Genotype-phenotype correlations for these genes have now established that the clinical phenotypes in Micro syndrome and MS represent a phenotypic continuum related to the nature and severity of the mutations present in the disease genes, with more deleterious mutations causing Micro syndrome and milder mutations causing MS. RAB18 has not yet been linked to the RAB3 pathways, but mutations in all three genes cause an indistinguishable phenotype, making it likely that there is some overlap. There is considerable genetic heterogeneity for these disorders and further gene identification will help delineate these pathways.
ABSTRACT Warburg Micro syndrome and Martsolf syndrome (MS) are heterogeneous autosomal‐recessive developmental disorders characterized by brain, eye, and endocrine abnormalities. Causative biallelic germline mutations have been identified in RAB3GAP1, RAB3GAP2, or RAB18, each of which encode proteins involved in membrane trafficking. This report provides an up to date overview of all known disease variants identified in 29 previously published families and 52 new families. One‐hundred and forty‐four Micro and nine Martsolf families were investigated, identifying mutations in RAB3GAP1 in 41% of cases, mutations in RAB3GAP2 in 7% of cases, and mutations in RAB18 in 5% of cases. These are listed in Leiden Open source Variation Databases, which was created by us for all three genes. Genotype–phenotype correlations for these genes have now established that the clinical phenotypes in Micro syndrome and MS represent a phenotypic continuum related to the nature and severity of the mutations present in the disease genes, with more deleterious mutations causing Micro syndrome and milder mutations causing MS. RAB18 has not yet been linked to the RAB3 pathways, but mutations in all three genes cause an indistinguishable phenotype, making it likely that there is some overlap. There is considerable genetic heterogeneity for these disorders and further gene identification will help delineate these pathways. Warburg Micro syndrome (OMIM 60018) and Martsolf syndrome (OMIM 21270) are related autosomal recessive neurodevelopmental disorders. Micro syndrome is more severe and characterized by ocular (microphthalmos, microcornea, congenital cataracts and optic atrophy) and neurodevelopmental pathology (microcephaly, polymicrogyria, hypogenesis of the corpus callosum, severe learning disability and progressive limb spasticity) and hypothalamic hypogonadism. Causative germline mutations have been identified in RAB3GAP1 (41% of families), RAB3GAP2 (7% of families) and RAB18 (5% of families) and result in a strikingly consistent phenotype.
Warburg Micro syndrome and Martsolf syndrome (MS) are heterogeneous autosomal-recessive developmental disorders characterized by brain, eye, and endocrine abnormalities. Causative biallelic germline mutations have been identified in RAB3GAP1, RAB3GAP2, or RAB18, each of which encode proteins involved in membrane trafficking. This report provides an up to date overview of all known disease variants identified in 29 previously published families and 52 new families. One-hundred and forty-four Micro and nine Martsolf families were investigated, identifying mutations in RAB3GAP1 in 41% of cases, mutations in RAB3GAP2 in 7% of cases, and mutations in RAB18 in 5% of cases. These are listed in Leiden Open source Variation Databases, which was created by us for all three genes. Genotype-phenotype correlations for these genes have now established that the clinical phenotypes in Micro syndrome and MS represent a phenotypic continuum related to the nature and severity of the mutations present in the disease genes, with more deleterious mutations causing Micro syndrome and milder mutations causing MS. RAB18 has not yet been linked to the RAB3 pathways, but mutations in all three genes cause an indistinguishable phenotype, making it likely that there is some overlap. There is considerable genetic heterogeneity for these disorders and further gene identification will help delineate these pathways.Warburg Micro syndrome and Martsolf syndrome (MS) are heterogeneous autosomal-recessive developmental disorders characterized by brain, eye, and endocrine abnormalities. Causative biallelic germline mutations have been identified in RAB3GAP1, RAB3GAP2, or RAB18, each of which encode proteins involved in membrane trafficking. This report provides an up to date overview of all known disease variants identified in 29 previously published families and 52 new families. One-hundred and forty-four Micro and nine Martsolf families were investigated, identifying mutations in RAB3GAP1 in 41% of cases, mutations in RAB3GAP2 in 7% of cases, and mutations in RAB18 in 5% of cases. These are listed in Leiden Open source Variation Databases, which was created by us for all three genes. Genotype-phenotype correlations for these genes have now established that the clinical phenotypes in Micro syndrome and MS represent a phenotypic continuum related to the nature and severity of the mutations present in the disease genes, with more deleterious mutations causing Micro syndrome and milder mutations causing MS. RAB18 has not yet been linked to the RAB3 pathways, but mutations in all three genes cause an indistinguishable phenotype, making it likely that there is some overlap. There is considerable genetic heterogeneity for these disorders and further gene identification will help delineate these pathways.
Author Faravelli, Francesca
Stewart, Helen
Plomp, Astrid S.
Jackson, Ian J.
Borck, Guntram
Handley, Mark T.
Macdonald, Fiona
Poo, Pilar
Hardy, Carol
Izzi, Claudia
Giuliano, Fabienne
Accorsi, Patrizia
Basel-Vanagaite, Lina
Glass, Ian
Edery, Patrick
Aligianis, Irene A.
Bem, Danai
García-Cazorla, Àngels
Lederer, Damien
Morris-Rosendahl, Deborah J.
Pinelli, Lorenzo
Graham, John M.
Mancini, Grazia
Seemanova, Eva
Jansen, Anna
Mowat, David
Rolfs, Arndt
Brown, Stephen
Maher, Eamonn R.
Abdel-Salam, Ghada M.H.
Peretz, Gabriela
Carpanini, Sarah M.
Roscioli, Tony
Martorell, Loreto
Zaki, Maha S.
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Notes ark:/67375/WNG-852TWF6M-7
Newlife: Molecular Investigations of Micro and Martsolf Syndromes - No. 07-08/12
ArticleID:HUMU22296
MRC Human Genetics Unit Program leader Track Fellowship - No. RA1631; No. RA1905
istex:6B304F073E02AAF5E1E336ADD682A1E956EDB413
Additional Supporting Information may be found in the online version of this article.
Deborah J. Morris‐Rosendahl's present address is National Heart and Lung Institute, Imperial College, London, UK.
These authors have contributed equally to the manuscript.
Contract grant sponsors: Newlife: Molecular Investigations of Micro and Martsolf Syndromes (07‐08/12); MRC Human Genetics Unit Program leader Track Fellowship (RA1631 and RA1905).
Communicated by Graham R. Taylor
Present address: National Heart and Lung Institute, Imperial College, London, UK
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May 2013
2013-May
20130501
PublicationDateYYYYMMDD 2013-05-01
PublicationDate_xml – month: 05
  year: 2013
  text: 2013-05
PublicationDecade 2010
PublicationPlace United States
PublicationPlace_xml – name: United States
– name: Hoboken
PublicationTitle Human mutation
PublicationTitleAlternate Human Mutation
PublicationYear 2013
Publisher Blackwell Publishing Ltd
John Wiley & Sons, Inc
Publisher_xml – name: Blackwell Publishing Ltd
– name: John Wiley & Sons, Inc
References Dursun F, Guven A, Morris-Rosendahl D. 2012. Warburg Micro syndrome. J Pediatr Endocrinol Metab 25:379-382.
Hennekam RC, van de Meeberg AG, van Doorne JM, Dijkstra PF, Bijlsma JB. 1988. Martsolf syndrome in a brother and sister: clinical features and pattern of inheritance. Eur J Pediatr 147:539-543.
Warburg M, Sjo O, Fledelius HC, Pedersen SA. 1993. Autosomal recessive microcephaly, microcornea, congenital cataract, mental retardation, optic atrophy, and hypogenitalism. Micro syndrome. Am J Dis Child 147:1309-1312.
Verhoeven K, De Jonghe P, Coen K, Verpoorten N, Auer-Grumbach M, Kwon JM, FitzPatrick D, Schmedding E, De Vriendt E, Jacobs A, Van Gerwen V, Wagner K, Hartung HP, Timmerman V. 2003. Mutations in the small GTP-ase late endosomal protein RAB7 cause Charcot-Marie-Tooth type 2B neuropathy. Am J Hum Genet 72:722-727.
Martin S, Driessen K, Nixon SJ, Zerial M, Parton RG. 2005. Regulated localization of Rab18 to lipid droplets: effects of lipolytic stimulation and inhibition of lipid droplet catabolism. J Biol Chem 280:42325-42335.
Fokkema IF, Taschner PE, Schaafsma GC, Celli J, Laros JF, den Dunnen JT. 2011. LOVD v.2.0: the next generation in gene variant databases. Hum Mutat 32:557-563.
Nagano F, Sasaki T, Fukui K, Asakura T, Imazumi K, Takai Y. 1998. Molecular cloning and characterization of the noncatalytic subunit of the Rab3 subfamily-specific GTPase-activating protein. J Biol Chem 273:24781-24785.
Strisciuglio P, Costabile M, Esposito M, Di Maio S. 1988. Martsolf's syndrome in a non-Jewish boy. J Med Genet 25:267-269.
Jenkins D, Seelow D, Jehee FS, Perlyn CA, Alonso LG, Bueno DF, Donnai D, Josifova D, Mathijssen IM, Morton JE, Orstavik KH, Sweeney E, et al. 2007. RAB23 mutations in Carpenter syndrome imply an unexpected role for hedgehog signaling in cranial-suture development and obesity. Am J Hum Genet 80:1162-1170.
Yuksel A, Yesil G, Aras C, Seven M. 2007. Warburg Micro syndrome in a Turkish boy. Clin Dysmorphol 16:89-93.
Aligianis IA, Johnson CA, Gissen P, Chen D, Hampshire D, Hoffmann K, Maina EN, Morgan NV, Tee L, Morton J, Ainsworth JR, Horn D, et al. 2005. Mutations of the catalytic subunit of RAB3GAP cause Warburg Micro syndrome. Nat Genet 37:221-223.
Menasche G, Pastural E, Feldmann J, Certain S, Ersoy F, Dupuis S, Wulffraat N, Bianchi D, Fischer A, Le Deist F, de Saint Basile G. 2000. Mutations in RAB27A cause Griscelli syndrome associated with haemophagocytic syndrome. Nat Genet 25:173-176.
Yildirim MS, Zamani AG, Bozkurt B. 2012. Warburg micro syndrome in two children from a highly inbred Turkish family. Genet Couns 23:169-174.
del Toro D, Alberch J, Lazaro-Dieguez F, Martin-Ibanez R, Xifro X, Egea G, Canals JM. 2009. Mutant huntingtin impairs post-Golgi trafficking to lysosomes by delocalizing optineurin/Rab8 complex from the Golgi apparatus. Mol Biol Cell 20:1478-1492.
Bidou L, Allamand V, Rousset JP, Namy O. 2012. Sense from nonsense: therapies for premature stop codon diseases. Trends Mol Med 18:679-688.
Seemanova E, Lesny I. 1996. X-linked microcephaly, microphthalmia, microcornea, congenital cataract, hypogenitalism, mental deficiency, growth retardation, spasticity: possible new syndrome. Am J Med Genet 66:179-183.
Aligianis IA, Morgan NV, Mione M, Johnson CA, Rosser E, Hennekam RC, Adams G, Trembath RC, Pilz DT, Stoodley N, Moore AT, Wilson S, Maher ER. 2006. Mutation in Rab3 GTPase-activating protein (RAB3GAP) noncatalytic subunit in a kindred with Martsolf syndrome. Am J Hum Genet 78:702-707.
Chia WJ, Tang BL. 2009. Emerging roles for Rab family GTPases in human cancer. Biochim Biophys Acta 1795:110-116.
Hutagalung AH, Novick PJ. 2011. Role of Rab GTPases in membrane traffic and cell physiology. Physiol Rev 91:119-149.
Muller M, Pym EC, Tong A, Davis GW. 2011. Rab3-GAP controls the progression of synaptic homeostasis at a late stage of vesicle release. Neuron 69:749-762.
Dalfo E, Gomez-Isla T, Rosa JL, Nieto Bodelon M, Cuadrado Tejedor M, Barrachina M, Ambrosio S, Ferrer I. 2004. Abnormal alpha-synuclein interactions with Rab proteins in alpha-synuclein A30P transgenic mice. J Neuropathol Exp Neurol 63:302-313.
Vazquez-Martinez R, Cruz-Garcia D, Duran-Prado M, Peinado JR, Castano JP, Malagon MM. 2007. Rab18 inhibits secretory activity in neuroendocrine cells by interacting with secretory granules. Traffic 8:867-882.
Ainsworth JR, Morton JE, Good P, Woods CG, George ND, Shield JP, Bradbury J, Henderson MJ, Chhina J. 2001. Micro syndrome in Muslim Pakistan children. Ophthalmology 108:491-497.
Ehara H, Utsunomiya Y, Ieshima A, Maegaki Y, Nishimura G, Takeshita K, Ohno K. 2007. Martsolf syndrome in Japanese siblings. Am J Med Genet A 143A:973-978.
Megarbane A, Choueiri R, Bleik J, Mezzina M, Caillaud C. 1999. Microcephaly, microphthalmia, congenital cataract, optic atrophy, short stature, hypotonia, severe psychomotor retardation, and cerebral malformations: a second family with micro syndrome or a new syndrome? J Med Genet 36:637-640.
Graham JM Jr, Hennekam R, Dobyns WB, Roeder E, Busch D. 2004. MICRO syndrome: an entity distinct from COFS syndrome. Am J Med Genet A 128A:235-245.
Ozeki S, Cheng J, Tauchi-Sato K, Hatano N, Taniguchi H, Fujimoto T. 2005. Rab18 localizes to lipid droplets and induces their close apposition to the endoplasmic reticulum-derived membrane. J Cell Sci 118:2601-2611.
Morisaki H, Morisaki T, Newby LK, Holmes EW. 1993. Alternative splicing: a mechanism for phenotypic rescue of a common inherited defect. J Clin Invest 91:2275-2280.
Morris-Rosendahl DJ, Segel R, Born AP, Conrad C, Loeys B, Brooks SS, Muller L, Zeschnigk C, Botti C, Rabinowitz R, Uyanik G, Crocq MA, Kraus U, Degen I, Faes F. 2010. New RAB3GAP1 mutations in patients with Warburg Micro Syndrome from different ethnic backgrounds and a possible founder effect in the Danish. Eur J Hum Genet 18:1100-1106.
Vazquez-Martinez R, Martinez-Fuentes AJ, Pulido MR, Jimenez-Reina L, Quintero A, Leal-Cerro A, Soto A, Webb SM, Sucunza N, Bartumeus F, Benito-Lopez P, Galvez-Moreno MA, Castaño JP, Malagon MM. 2008. Rab18 is reduced in pituitary tumors causing acromegaly and its overexpression reverts growth hormone hypersecretion. J Clin Endocrinol Metab 93:2269-2276.
Abdel-Salam GM, Hassan NA, Kayed HF, Aligianis IA. 2007. Phenotypic variability in Micro syndrome: report of new cases. Genet Couns 18:423-435.
Sanchez JM, Barreiro C, Freilij H. 1985. Two brothers with Martsolf's syndrome. J Med Genet 22:308-310.
Martsolf JT, Hunter AG, Haworth JC. 1978. Severe mental retardation, cataracts, short stature, and primary hypogonadism in two brothers. Am J Med Genet 1:291-299.
Sakane A, Manabe S, Ishizaki H, Tanaka-Okamoto M, Kiyokage E, Toida K, Yoshida T, Miyoshi J, Kamiya H, Takai Y, Sasaki T. 2006. Rab3 GTPase-activating protein regulates synaptic transmission and plasticity through the inactivation of Rab3. Proc Natl Acad Sci USA 103:10029-10034.
Akavia UD, Litvin O, Kim J, Sanchez-Garcia F, Kotliar D, Causton HC, Pochanard P, Mozes E, Garraway LA, Pe'er D. 2010. An integrated approach to uncover drivers of cancer. Cell 143:1005-1017.
Alshammari MJ, Al-Otaibi L, Alkuraya FS. 2012. Mutation in RAB33B, which encodes a regulator of retrograde Golgi transport, defines a second Dyggve-Melchior-Clausen locus. J Med Genet 49:455-461.
Bora E, Cankaya T, Alpman A, Karaca E, Cogulu O, Tekgul H, Ozkinay F. 2007. A new case of Martsolf syndrome. Genet Couns 18:71-75.
Fukui K, Sasaki T, Imazumi K, Matsuura Y, Nakanishi H, Takai Y. 1997. Isolation and characterization of a GTPase activating protein specific for the Rab3 subfamily of small G proteins. J Biol Chem 272:4655-4658.
Dejgaard SY, Murshid A, Erman A, Kizilay O, Verbich D, Lodge R, Dejgaard K, Ly-Hartig TB, Pepperkok R, Simpson JC, Presley JF. 2008. Rab18 and Rab43 have key roles in ER-Golgi trafficking. J Cell Sci 121:2768-2781.
Pulido MR, Diaz-Ruiz A, Jimenez-Gomez Y, Garcia-Navarro S, Gracia-Navarro F, Tinahones F, Lopez-Miranda J, Fruhbeck G, Vazquez-Martinez R, Malagon MM. 2011. Rab18 dynamics in adipocytes in relation to lipogenesis, lipolysis and obesity. PLoS One 6:e22931.
Rodriguez Criado G, Rufo M, Gomez de Terreros I. 1999. A second family with Micro syndrome. Clin Dysmorphol 8:241-245.
Dupuis N, Lebon S, Kumar M, Drunat S, Graul-Neumann LM, Gressens P, El Ghouzzi V. 2012. A novel RAB33B mutation in Smith-McCort dysplasia. Hum Mutat 34:283-286.
Battaglia A, Hoyme HE, Dallapiccola B, Zackai E, Hudgins L, McDonald-McGinn D, Bahi-Buisson N, Romano C, Williams CA, Brailey LL, Zuberi SM, Carey JC. 2008. Further delineation of deletion 1p36 syndrome in 60 patients: a recognizable phenotype and common cause of developmental delay and mental retardation. Pediatrics 121:404-410.
Derbent M, Agras PI, Gedik S, Oto S, Alehan F, Saatci U. 2004. Congenital cataract, microphthalmia, hypoplasia of corpus callosum and hypogenitalism: report and review of Micro syndrome. Am J Med Genet A 128A:232-234.
Harbord MG, Baraitser M, Wilson J. 1989. Microcephaly, mental retardation, cataracts, and hypogonadism in sibs: Martsolf's syndrome. J Med Genet 26:397-400.
Bem D, Yoshimura S, Nunes-Bastos R, Bond FC, Kurian MA, Rahman F, Handley MT, Hadzhiev Y, Masood I, Straatman-Iwanowska AA, Cullinane AR, McNeill A, et al. 2011. Loss-of-function mutations in RAB18 cause Warburg micro syndrome. Am J Hum Genet 88:499-507.
Borck G, Wunram H, Steiert A, Volk AE, Korber F, Roters S, Herkenrath P, Wollnik B, Morris-Rosendahl DJ, Kubisch C. 2011. A homozygous RAB3GAP2 mutation causes Warburg Micro syndrome. Hum Genet 129:45-50.
2004; 128A
2007; 18
2004; 63
2009; 20
2006; 78
2000; 25
1997; 272
2010; 18
2010; 143
1988; 147
2005; 118
2011; 32
2012; 18
1993; 91
1978; 1
2001; 108
1989; 26
1999; 8
1985; 22
1993; 147
2003; 72
2008; 121
2012; 34
2011; 6
2008; 93
1998; 273
2007; 16
2005; 280
2011; 129
2011; 91
1988; 25
1999; 36
2007; 8
2011; 88
2007; 80
2012; 49
2011; 69
2005; 37
2012; 25
2007; 143A
2012; 23
2009; 1795
2006; 103
1996; 66
References_xml – reference: Sakane A, Manabe S, Ishizaki H, Tanaka-Okamoto M, Kiyokage E, Toida K, Yoshida T, Miyoshi J, Kamiya H, Takai Y, Sasaki T. 2006. Rab3 GTPase-activating protein regulates synaptic transmission and plasticity through the inactivation of Rab3. Proc Natl Acad Sci USA 103:10029-10034.
– reference: Warburg M, Sjo O, Fledelius HC, Pedersen SA. 1993. Autosomal recessive microcephaly, microcornea, congenital cataract, mental retardation, optic atrophy, and hypogenitalism. Micro syndrome. Am J Dis Child 147:1309-1312.
– reference: Ehara H, Utsunomiya Y, Ieshima A, Maegaki Y, Nishimura G, Takeshita K, Ohno K. 2007. Martsolf syndrome in Japanese siblings. Am J Med Genet A 143A:973-978.
– reference: Muller M, Pym EC, Tong A, Davis GW. 2011. Rab3-GAP controls the progression of synaptic homeostasis at a late stage of vesicle release. Neuron 69:749-762.
– reference: Ainsworth JR, Morton JE, Good P, Woods CG, George ND, Shield JP, Bradbury J, Henderson MJ, Chhina J. 2001. Micro syndrome in Muslim Pakistan children. Ophthalmology 108:491-497.
– reference: Jenkins D, Seelow D, Jehee FS, Perlyn CA, Alonso LG, Bueno DF, Donnai D, Josifova D, Mathijssen IM, Morton JE, Orstavik KH, Sweeney E, et al. 2007. RAB23 mutations in Carpenter syndrome imply an unexpected role for hedgehog signaling in cranial-suture development and obesity. Am J Hum Genet 80:1162-1170.
– reference: Verhoeven K, De Jonghe P, Coen K, Verpoorten N, Auer-Grumbach M, Kwon JM, FitzPatrick D, Schmedding E, De Vriendt E, Jacobs A, Van Gerwen V, Wagner K, Hartung HP, Timmerman V. 2003. Mutations in the small GTP-ase late endosomal protein RAB7 cause Charcot-Marie-Tooth type 2B neuropathy. Am J Hum Genet 72:722-727.
– reference: Battaglia A, Hoyme HE, Dallapiccola B, Zackai E, Hudgins L, McDonald-McGinn D, Bahi-Buisson N, Romano C, Williams CA, Brailey LL, Zuberi SM, Carey JC. 2008. Further delineation of deletion 1p36 syndrome in 60 patients: a recognizable phenotype and common cause of developmental delay and mental retardation. Pediatrics 121:404-410.
– reference: Dalfo E, Gomez-Isla T, Rosa JL, Nieto Bodelon M, Cuadrado Tejedor M, Barrachina M, Ambrosio S, Ferrer I. 2004. Abnormal alpha-synuclein interactions with Rab proteins in alpha-synuclein A30P transgenic mice. J Neuropathol Exp Neurol 63:302-313.
– reference: Fokkema IF, Taschner PE, Schaafsma GC, Celli J, Laros JF, den Dunnen JT. 2011. LOVD v.2.0: the next generation in gene variant databases. Hum Mutat 32:557-563.
– reference: Aligianis IA, Morgan NV, Mione M, Johnson CA, Rosser E, Hennekam RC, Adams G, Trembath RC, Pilz DT, Stoodley N, Moore AT, Wilson S, Maher ER. 2006. Mutation in Rab3 GTPase-activating protein (RAB3GAP) noncatalytic subunit in a kindred with Martsolf syndrome. Am J Hum Genet 78:702-707.
– reference: Hennekam RC, van de Meeberg AG, van Doorne JM, Dijkstra PF, Bijlsma JB. 1988. Martsolf syndrome in a brother and sister: clinical features and pattern of inheritance. Eur J Pediatr 147:539-543.
– reference: Nagano F, Sasaki T, Fukui K, Asakura T, Imazumi K, Takai Y. 1998. Molecular cloning and characterization of the noncatalytic subunit of the Rab3 subfamily-specific GTPase-activating protein. J Biol Chem 273:24781-24785.
– reference: Seemanova E, Lesny I. 1996. X-linked microcephaly, microphthalmia, microcornea, congenital cataract, hypogenitalism, mental deficiency, growth retardation, spasticity: possible new syndrome. Am J Med Genet 66:179-183.
– reference: Bidou L, Allamand V, Rousset JP, Namy O. 2012. Sense from nonsense: therapies for premature stop codon diseases. Trends Mol Med 18:679-688.
– reference: Morisaki H, Morisaki T, Newby LK, Holmes EW. 1993. Alternative splicing: a mechanism for phenotypic rescue of a common inherited defect. J Clin Invest 91:2275-2280.
– reference: Derbent M, Agras PI, Gedik S, Oto S, Alehan F, Saatci U. 2004. Congenital cataract, microphthalmia, hypoplasia of corpus callosum and hypogenitalism: report and review of Micro syndrome. Am J Med Genet A 128A:232-234.
– reference: Dejgaard SY, Murshid A, Erman A, Kizilay O, Verbich D, Lodge R, Dejgaard K, Ly-Hartig TB, Pepperkok R, Simpson JC, Presley JF. 2008. Rab18 and Rab43 have key roles in ER-Golgi trafficking. J Cell Sci 121:2768-2781.
– reference: Borck G, Wunram H, Steiert A, Volk AE, Korber F, Roters S, Herkenrath P, Wollnik B, Morris-Rosendahl DJ, Kubisch C. 2011. A homozygous RAB3GAP2 mutation causes Warburg Micro syndrome. Hum Genet 129:45-50.
– reference: Martin S, Driessen K, Nixon SJ, Zerial M, Parton RG. 2005. Regulated localization of Rab18 to lipid droplets: effects of lipolytic stimulation and inhibition of lipid droplet catabolism. J Biol Chem 280:42325-42335.
– reference: Morris-Rosendahl DJ, Segel R, Born AP, Conrad C, Loeys B, Brooks SS, Muller L, Zeschnigk C, Botti C, Rabinowitz R, Uyanik G, Crocq MA, Kraus U, Degen I, Faes F. 2010. New RAB3GAP1 mutations in patients with Warburg Micro Syndrome from different ethnic backgrounds and a possible founder effect in the Danish. Eur J Hum Genet 18:1100-1106.
– reference: Sanchez JM, Barreiro C, Freilij H. 1985. Two brothers with Martsolf's syndrome. J Med Genet 22:308-310.
– reference: Megarbane A, Choueiri R, Bleik J, Mezzina M, Caillaud C. 1999. Microcephaly, microphthalmia, congenital cataract, optic atrophy, short stature, hypotonia, severe psychomotor retardation, and cerebral malformations: a second family with micro syndrome or a new syndrome? J Med Genet 36:637-640.
– reference: Ozeki S, Cheng J, Tauchi-Sato K, Hatano N, Taniguchi H, Fujimoto T. 2005. Rab18 localizes to lipid droplets and induces their close apposition to the endoplasmic reticulum-derived membrane. J Cell Sci 118:2601-2611.
– reference: Bem D, Yoshimura S, Nunes-Bastos R, Bond FC, Kurian MA, Rahman F, Handley MT, Hadzhiev Y, Masood I, Straatman-Iwanowska AA, Cullinane AR, McNeill A, et al. 2011. Loss-of-function mutations in RAB18 cause Warburg micro syndrome. Am J Hum Genet 88:499-507.
– reference: Vazquez-Martinez R, Martinez-Fuentes AJ, Pulido MR, Jimenez-Reina L, Quintero A, Leal-Cerro A, Soto A, Webb SM, Sucunza N, Bartumeus F, Benito-Lopez P, Galvez-Moreno MA, Castaño JP, Malagon MM. 2008. Rab18 is reduced in pituitary tumors causing acromegaly and its overexpression reverts growth hormone hypersecretion. J Clin Endocrinol Metab 93:2269-2276.
– reference: Akavia UD, Litvin O, Kim J, Sanchez-Garcia F, Kotliar D, Causton HC, Pochanard P, Mozes E, Garraway LA, Pe'er D. 2010. An integrated approach to uncover drivers of cancer. Cell 143:1005-1017.
– reference: Rodriguez Criado G, Rufo M, Gomez de Terreros I. 1999. A second family with Micro syndrome. Clin Dysmorphol 8:241-245.
– reference: Dupuis N, Lebon S, Kumar M, Drunat S, Graul-Neumann LM, Gressens P, El Ghouzzi V. 2012. A novel RAB33B mutation in Smith-McCort dysplasia. Hum Mutat 34:283-286.
– reference: Hutagalung AH, Novick PJ. 2011. Role of Rab GTPases in membrane traffic and cell physiology. Physiol Rev 91:119-149.
– reference: Alshammari MJ, Al-Otaibi L, Alkuraya FS. 2012. Mutation in RAB33B, which encodes a regulator of retrograde Golgi transport, defines a second Dyggve-Melchior-Clausen locus. J Med Genet 49:455-461.
– reference: Aligianis IA, Johnson CA, Gissen P, Chen D, Hampshire D, Hoffmann K, Maina EN, Morgan NV, Tee L, Morton J, Ainsworth JR, Horn D, et al. 2005. Mutations of the catalytic subunit of RAB3GAP cause Warburg Micro syndrome. Nat Genet 37:221-223.
– reference: Menasche G, Pastural E, Feldmann J, Certain S, Ersoy F, Dupuis S, Wulffraat N, Bianchi D, Fischer A, Le Deist F, de Saint Basile G. 2000. Mutations in RAB27A cause Griscelli syndrome associated with haemophagocytic syndrome. Nat Genet 25:173-176.
– reference: Martsolf JT, Hunter AG, Haworth JC. 1978. Severe mental retardation, cataracts, short stature, and primary hypogonadism in two brothers. Am J Med Genet 1:291-299.
– reference: Graham JM Jr, Hennekam R, Dobyns WB, Roeder E, Busch D. 2004. MICRO syndrome: an entity distinct from COFS syndrome. Am J Med Genet A 128A:235-245.
– reference: Vazquez-Martinez R, Cruz-Garcia D, Duran-Prado M, Peinado JR, Castano JP, Malagon MM. 2007. Rab18 inhibits secretory activity in neuroendocrine cells by interacting with secretory granules. Traffic 8:867-882.
– reference: Dursun F, Guven A, Morris-Rosendahl D. 2012. Warburg Micro syndrome. J Pediatr Endocrinol Metab 25:379-382.
– reference: Harbord MG, Baraitser M, Wilson J. 1989. Microcephaly, mental retardation, cataracts, and hypogonadism in sibs: Martsolf's syndrome. J Med Genet 26:397-400.
– reference: Pulido MR, Diaz-Ruiz A, Jimenez-Gomez Y, Garcia-Navarro S, Gracia-Navarro F, Tinahones F, Lopez-Miranda J, Fruhbeck G, Vazquez-Martinez R, Malagon MM. 2011. Rab18 dynamics in adipocytes in relation to lipogenesis, lipolysis and obesity. PLoS One 6:e22931.
– reference: Bora E, Cankaya T, Alpman A, Karaca E, Cogulu O, Tekgul H, Ozkinay F. 2007. A new case of Martsolf syndrome. Genet Couns 18:71-75.
– reference: Fukui K, Sasaki T, Imazumi K, Matsuura Y, Nakanishi H, Takai Y. 1997. Isolation and characterization of a GTPase activating protein specific for the Rab3 subfamily of small G proteins. J Biol Chem 272:4655-4658.
– reference: Yildirim MS, Zamani AG, Bozkurt B. 2012. Warburg micro syndrome in two children from a highly inbred Turkish family. Genet Couns 23:169-174.
– reference: Strisciuglio P, Costabile M, Esposito M, Di Maio S. 1988. Martsolf's syndrome in a non-Jewish boy. J Med Genet 25:267-269.
– reference: Abdel-Salam GM, Hassan NA, Kayed HF, Aligianis IA. 2007. Phenotypic variability in Micro syndrome: report of new cases. Genet Couns 18:423-435.
– reference: Yuksel A, Yesil G, Aras C, Seven M. 2007. Warburg Micro syndrome in a Turkish boy. Clin Dysmorphol 16:89-93.
– reference: Chia WJ, Tang BL. 2009. Emerging roles for Rab family GTPases in human cancer. Biochim Biophys Acta 1795:110-116.
– reference: del Toro D, Alberch J, Lazaro-Dieguez F, Martin-Ibanez R, Xifro X, Egea G, Canals JM. 2009. Mutant huntingtin impairs post-Golgi trafficking to lysosomes by delocalizing optineurin/Rab8 complex from the Golgi apparatus. Mol Biol Cell 20:1478-1492.
– volume: 80
  start-page: 1162
  year: 2007
  end-page: 1170
  article-title: 23 mutations in arpenter syndrome imply an unexpected role for hedgehog signaling in cranial‐suture development and obesity
  publication-title: Am J Hum Genet
– volume: 22
  start-page: 308
  year: 1985
  end-page: 310
  article-title: Two brothers with artsolf's syndrome
  publication-title: J Med Genet
– volume: 147
  start-page: 539
  year: 1988
  end-page: 543
  article-title: artsolf syndrome in a brother and sister: clinical features and pattern of inheritance
  publication-title: Eur J Pediatr
– volume: 121
  start-page: 404
  year: 2008
  end-page: 410
  article-title: Further delineation of deletion 1p36 syndrome in 60 patients: a recognizable phenotype and common cause of developmental delay and mental retardation
  publication-title: Pediatrics
– volume: 63
  start-page: 302
  year: 2004
  end-page: 313
  article-title: Abnormal alpha–synuclein interactions with ab proteins in alpha–synuclein 30 transgenic mice
  publication-title: J Neuropathol Exp Neurol
– volume: 20
  start-page: 1478
  year: 2009
  end-page: 1492
  article-title: Mutant huntingtin impairs post‐ olgi trafficking to lysosomes by delocalizing optineurin/ ab8 complex from the olgi apparatus
  publication-title: Mol Biol Cell
– volume: 34
  start-page: 283
  year: 2012
  end-page: 286
  article-title: A novel 33 mutation in mith– c ort dysplasia
  publication-title: Hum Mutat
– volume: 8
  start-page: 867
  year: 2007
  end-page: 882
  article-title: ab18 inhibits secretory activity in neuroendocrine cells by interacting with secretory granules
  publication-title: Traffic
– volume: 1795
  start-page: 110
  year: 2009
  end-page: 116
  article-title: Emerging roles for ab family ases in human cancer
  publication-title: Biochim Biophys Acta
– volume: 32
  start-page: 557
  year: 2011
  end-page: 563
  article-title: v.2.0: the next generation in gene variant databases
  publication-title: Hum Mutat
– volume: 1
  start-page: 291
  year: 1978
  end-page: 299
  article-title: Severe mental retardation, cataracts, short stature, and primary hypogonadism in two brothers
  publication-title: Am J Med Genet
– volume: 91
  start-page: 2275
  year: 1993
  end-page: 2280
  article-title: Alternative splicing: a mechanism for phenotypic rescue of a common inherited defect
  publication-title: J Clin Invest
– volume: 72
  start-page: 722
  year: 2003
  end-page: 727
  article-title: Mutations in the small ‐ase late endosomal protein 7 cause harcot‐ arie‐ ooth type 2 neuropathy
  publication-title: Am J Hum Genet
– volume: 280
  start-page: 42325
  year: 2005
  end-page: 42335
  article-title: Regulated localization of ab18 to lipid droplets: effects of lipolytic stimulation and inhibition of lipid droplet catabolism
  publication-title: J Biol Chem
– volume: 103
  start-page: 10029
  year: 2006
  end-page: 10034
  article-title: ab3 ase‐activating protein regulates synaptic transmission and plasticity through the inactivation of ab3
  publication-title: Proc Natl Acad Sci USA
– volume: 23
  start-page: 169
  year: 2012
  end-page: 174
  article-title: arburg micro syndrome in two children from a highly inbred urkish family
  publication-title: Genet Couns
– volume: 143A
  start-page: 973
  year: 2007
  end-page: 978
  article-title: artsolf syndrome in apanese siblings
  publication-title: Am J Med Genet A
– volume: 8
  start-page: 241
  year: 1999
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Snippet ABSTRACT Warburg Micro syndrome and Martsolf syndrome (MS) are heterogeneous autosomal‐recessive developmental disorders characterized by brain, eye, and...
Warburg Micro syndrome and Martsolf syndrome (MS) are heterogeneous autosomal-recessive developmental disorders characterized by brain, eye, and endocrine...
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pubmed
wiley
istex
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StartPage 686
SubjectTerms Amino Acid Sequence
Animals
Cataract - genetics
Cataract - pathology
Child
Child, Preschool
Genotype
Genotype & phenotype
Humans
Hypogonadism - genetics
Hypogonadism - pathology
Infant
Intellectual Disability - genetics
Intellectual Disability - pathology
Magnetic Resonance Imaging
Male
Martsolf
Micro
Molecular Sequence Data
Mutation
Mutation, Missense
Phenotype
Rab
rab GTP-Binding Proteins - chemistry
rab GTP-Binding Proteins - genetics
RAB18
rab3 GTP-Binding Proteins - chemistry
rab3 GTP-Binding Proteins - genetics
RAB3GAP1
RAB3GAP2
Sequence Homology, Amino Acid
Title Mutation Spectrum in RAB3GAP1, RAB3GAP2, and RAB18 and Genotype-Phenotype Correlations in Warburg Micro Syndrome and Martsolf Syndrome
URI https://api.istex.fr/ark:/67375/WNG-852TWF6M-7/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fhumu.22296
https://www.ncbi.nlm.nih.gov/pubmed/23420520
https://www.proquest.com/docview/1760163379
https://www.proquest.com/docview/1326728721
Volume 34
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