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Seminars in Ophthalmology Volume 29, 2014 - Issue 5-6: MEEI Fellows Review 2014: Complications of Subspecialty Ophthalmic Care Guest Editors: John Miller, Duna Raoof
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Review Article

Systemic Diseases Associated with Retinal Dystrophies

Xiang Q. WerdichDepartment of Ophthalmology, Massachusetts Eye and Ear Infirmary, Harvard Medical School Boston, MassachusettsUSACorrespondence[email protected]
,
Emily M. PlaceDepartment of Ophthalmology, Massachusetts Eye and Ear Infirmary, Harvard Medical School Boston, MassachusettsUSA
&
Eric A. PierceDepartment of Ophthalmology, Massachusetts Eye and Ear Infirmary, Harvard Medical School Boston, MassachusettsUSA
Pages 319-328 | Received 30 Jun 2014, Accepted 21 Jul 2014, Published online: 17 Oct 2014

References

  • Heckenlively JR, Daiger SP. Hereditary retinal and choroidal degeneration. In: Emery and Rimoin's principles and practice of medical genetics. Rimoin DL, Connor JM, Pyeritz RE, Korf BR, eds. 5th ed. Philadelphia: Churchill Livingston Elsevier, 2006. pp 3197–3227
  • Berger W, Kloeckener-Gruissem B, Neidhardt J. The molecular basis of human retinal and vitreoretinal diseases. Prog Retin Eye Res 2010;29(5):335–375
  • Daiger SP, Sullivan LS, Bowne SJ. Genes and mutations causing retinitis pigmentosa. Clin Genet 2013;84(2):132–141
  • Wungjiranirun M, Murthy RC, Stout JT. Hereditary retinitis pigmentosa. In: Pediatric retina. Hartnett ME, Trese M, Capone A, Keats BJB, Caputo G, eds. 2nd ed. Philadelphia: Lippincott Williams & Wilkins, 2013. pp 240–258
  • Wang F, Wang H, Tuan HF, et al. Next generation sequencing-based molecular diagnosis of retinitis pigmentosa: identification of a novel genotype-phenotype correlation and clinical refinements. Hum Genet 2014;133(3):331–345
  • Wiggs JL, Pierce EA. Genetic testing for inherited eye disease: who benefits? JAMA Ophthalmol 2013;131(10):1265–1266
  • Adams NA, Awadein A, Toma HS. The retinal ciliopathies. Ophthalmic Genet 2007;28(3):113–125
  • Mockel A, Perdomo Y, Stutzmann F, et al. Retinal dystrophy in Bardet-Biedl syndrome and related syndromic ciliopathies. Prog Retin Eye Res 2011;30(4):258–274
  • Hildebrandt F, Zhou W. Nephronophthisis-associated ciliopathies. J Am Soc Nephrol 2007;18(6):1855–1871
  • Wheatley DN. Primary cilia in normal and pathological tissues. Pathobiology 1995;63(4):222–238
  • Liu Q, Tan G, Levenkova N, et al. The proteome of the mouse photoreceptor sensory cilium complex. Mol Cell Proteomics 2007;6(8):1299–1317
  • Mykytyn K, Sheffield VC. Establishing a connection between cilia and Bardet-Biedl Syndrome. Trends Mol Med 2004;10(3):106–109
  • Pazour GJ, Baker SA, Deane JA, et al. The intraflagellar transport protein, IFT88, is essential for vertebrate photoreceptor assembly and maintenance. J Cell Biol 2002;157(1):103–113
  • Wolfrum U, Schmitt A. Rhodopsin transport in the membrane of the connecting cilium of mammalian photoreceptor cells. Cell Motil Cytoskeleton 2000;46(2):95–107
  • Arts HH, Knoers NV. Current insights into renal ciliopathies: what can genetics teach us? Pediatr Nephrol 2013;28(6):863–874
  • Blacque OE, Leroux MR. Bardet-Biedl syndrome: an emerging pathomechanism of intracellular transport. Cell Mol Life Sci 2006;63(18):2145–2161
  • Li G, Vega R, Nelms K, et al. A role for Alstrom syndrome protein, alms1, in kidney ciliogenesis and cellular quiescence. PLoS Genetics 2007;3(1):e8
  • Sang L, Miller JJ, Corbit KC, et al. Mapping the NPHP-JBTS-MKS protein network reveals ciliopathy disease genes and pathways. Cell 2011;145(4):513–528
  • Novarino G, Akizu N, Gleeson JG. Modeling human disease in humans: the ciliopathies. Cell 2011;147(1):70–79
  • van Reeuwijk J, Arts HH, Roepman R. Scrutinizing ciliopathies by unraveling ciliary interaction networks. Hum Mol Gen 2011;20(R2):R149–R157
  • Nachury MV, Loktev AV, Zhang Q, et al. A core complex of BBS proteins cooperates with the GTPase Rab8 to promote ciliary membrane biogenesis. Cell 2007;129(6):1201–1213
  • Seo S, Baye LM, Schulz NP, et al. BBS6, BBS10, and BBS12 form a complex with CCT/TRiC family chaperonins and mediate BBSome assembly. Proc Natl Acad Sci USA 2010;107(4):1488–1493
  • Beales PL, Elcioglu N, Woolf AS, et al. New criteria for improved diagnosis of Bardet-Biedl syndrome: results of a population survey. J Med Genet 1999;36(6):437–446
  • Green JS, Parfrey PS, Harnett JD, et al. The cardinal manifestations of Bardet-Biedl syndrome, a form of Laurence-Moon-Biedl syndrome. N Engl J Med 1989;321(15):1002–1009
  • Marshall JD, Bronson RT, Collin GB, et al. New Alstrom syndrome phenotypes based on the evaluation of 182 cases. Arch Intern Med 2005;165(6):675–683
  • Russell-Eggitt IM, Clayton PT, Coffey R, et al. Alstrom syndrome: report of 22 cases and literature review. Ophthalmology 1998;105(7):1274–1280
  • Gleeson JG, Keeler LC, Parisi MA, et al. Molar tooth sign of the midbrain-hindbrain junction: occurrence in multiple distinct syndromes. Am J Med Genet 2004;125A(2):125–134; discussion 117
  • Keppler-Noreuil KM, Adam MP, Welch J, et al. Clinical insights gained from eight new cases and review of reported cases with Jeune syndrome (asphyxiating thoracic dystrophy). Am J Med Genet 2011;155A(5):1021–1032
  • Alexiev BA, Lin X, Sun CC, Brenner DS. Meckel-Gruber syndrome: pathologic manifestations, minimal diagnostic criteria, and differential diagnosis. Arch Pathol Lab Med 2006;130(8):1236–1238
  • Ala-Mello S, Kivivuori SM, Ronnholm KA, et al. Mechanism underlying early anaemia in children with familial juvenile nephronophthisis. Pediatr Nephrol 1996;10(5):578–581
  • Imhoff O, Marion V, Stoetzel C, et al. Bardet-Biedl syndrome: a study of the renal and cardiovascular phenotypes in a French cohort. Clin J Am Soc Nephrol 2011;6(1):22–29
  • Steele BT, Lirenman DS, Beattie CW. Nephronophthisis. Am J Med 1980;68(4):531–538
  • Medhioub M, Cherif D, Benessy F, et al. Refined mapping of a gene (NPH1) causing familial juvenile nephronophthisis and evidence for genetic heterogeneity. Genomics 1994;22(2):296–301
  • Iannaccone A, De Propris G, Roncati S, et al. The ocular phenotype of the Bardet-Biedl syndrome: comparison to non-syndromic retinitis pigmentosa. Ophthalmic Genet 1997;18(1):13–26
  • Riise R, Andreasson S, Tornqvist K. Full-field electroretinograms in individuals with the Laurence-Mood-Bardet-Biedl syndrome. Acta Ophthalmol Scand 1996;74(6):618–620
  • Campo RV, Aaberg TM. Ocular and systemic manifestations of the Bardet-Biedl syndrome. Am J Ophthalmol 1982;94(6):750–756
  • Deveault C, Billingsley G, Duncan JL, et al. BBS genotype-phenotype assessment of a multiethnic patient cohort calls for a revision of the disease definition. Hum Mutat 2011;32(6):610–619
  • Leitch CC, Zaghloul NA, Davis EE, et al. Hypomorphic mutations in syndromic encephalocele genes are associated with Bardet-Biedl syndrome. Nat Genet 2008;40(4):443–448
  • Kim SK, Shindo A, Park TJ, et al. Planar cell polarity acts through septins to control collective cell movement and ciliogenesis. Science 2010;329(5997):1337–1340
  • Otto EA, Hurd TW, Airik R, et al. Candidate exome capture identifies mutation of SDCCAG8 as the cause of a retinal-renal ciliopathy. Nat Genet 2010;42(10):840–850
  • Travaglini L, Brancati F, Attie-Bitach T, et al. Expanding CEP290 mutational spectrum in ciliopathies. Am J Med Genet 2009;149A(10):2173–2180
  • Samie MA, Xu H. Lysosomal exocytosis and lipid storage disorders. J Lipid Res 2014;55(6):995--1009
  • Fahnehjelm KT, Ashworth JL, Pitz S, et al. Clinical guidelines for diagnosing and managing ocular manifestations in children with mucopolysaccharidosis. Acta Ophthalmol 2012;90(7):595–602
  • Neufeld EF, Muenzer J. The mucopolysaccharidoses. In: The metabolic and molecular bases of inherited disease. Scriver CR, Beaudet AL, Sly WS, eds. 8th ed. New York: McGraw-Hill, 2001. pp 3421–3452
  • Caruso RC, Kaiser-Kupfer MI, Muenzer J, et al. Electroretinographic findings in the mucopolysaccharidoses. Ophthalmology 1986;93(12):1612–1616
  • Thomas GH. Disorders of glycoprotein degradation: alpha-mannosidosis, beta-mannosidosis, fucosidosis and sialidosis. In: Metabolic and molecular bases of inherited disease. Scriver CR, Beaudet AL, Sly WS, eds. 8th ed. New York: McGraw-Hill, 2000. pp 3507–3533
  • Schuchman EH, Desnick RJ. Niemann-Pick disease types A and B: acid sphingomyelinase deficiencies. In: The metabolic and molecular bases of inherited disease. Scriver CR, Beaudet AL, Sly WS, eds. 8th ed. New York: McGraw-Hill, 2001. pp 3589–3610
  • Filocamo M, Morrone A. Lysosomal storage disorders: molecular basis and laboratory testing. Human Genom 2011;5(3):156–169
  • Bennett MJ, Rakheja D. The neuronal ceroid-lipofuscinoses. Dev Disabil Res Rev 2013;17(3):254–259
  • Zeman W, Dyken P. Neuronal ceroid-lipofuscinosis (Batten's disease): relationship to amaurotic family idiocy? Pediatrics 1969;44(4):570–583
  • Warrier V, Vieira M, Mole SE. Genetic basis and phenotypic correlations of the neuronal ceroid lipofusinoses. Biochim Biophys Acta 2013;1832(11):1827–1830
  • Siintola E, Partanen S, Stromme P, et al. Cathepsin D deficiency underlies congenital human neuronal ceroid-lipofuscinosis. Brain 2006;129(Pt 6):1438–1445
  • Williams RE, Mole SE. New nomenclature and classification scheme for the neuronal ceroid lipofuscinoses. Neurology 2012;79(2):183–191
  • Folz SJ, Trobe JD. The peroxisome and the eye. Surv Ophthalmol 1991;35(5):353–368
  • Scotto JM, Hadchouel M, Odievre M, et al. Infantile phytanic acid storage disease, a possible variant of Refsum's disease: three cases, including ultrastructural studies of the liver. J Inherit Metab Dis 1982;5(2):83–90
  • Steinberg SJ, Dodt G, Raymond GV, et al. Peroxisome biogenesis disorders. Biochim Biophys Acta 2006;1763(12):1733–1748
  • Moser HW. Genotype-phenotype correlations in disorders of peroxisome biogenesis. Mol Genet Metabol 1999;68(2):316–327
  • Ma C, Agrawal G, Subramani S. Peroxisome assembly: matrix and membrane protein biogenesis. J Cell Biol 2011;193(1):7–16
  • Jansen GA, Mihalik SJ, Watkins PA, et al. Phytanoyl-CoA hydroxylase is not only deficient in classical Refsum disease but also in rhizomelic chondrodysplasia punctata. J Inherit Metab Dis 1997;20(3):444–446
  • Jansen GA, Ofman R, Ferdinandusse S, et al. Refsum disease is caused by mutations in the phytanoyl-CoA hydroxylase gene. Nat Genet 1997;17(2):190–193
  • van den Brink DM, Brites P, Haasjes J, et al. Identification of PEX7 as the second gene involved in Refsum disease. Am J Hum Genet 2003;72(2):471–477
  • Refsum S. Heredopathia atactica polyneuritiformis: hexadecanoic acid storage disease (Refsum's disease); Definition, treatment and pathogenesis: a short review. Psychiatr Neurol Med Psychol Beih 1977;22–23:11–18
  • Flament-Durand J, Noel P, Rutsaert J, et al. A case of Refsum's disease: clinical, pathological, ultrastructural and biochemical study. Pathol Eur 1971;6(2):172–191
  • Toussaint D, Danis P. An ocular pathologic study of Refsum's syndrome. Am J Ophthalmol 1971;72(2):342–347
  • Refsum S. Heredopathia atactica polyneuritiformis phytanic-acid storage disease, Refsum's disease: a biochemically well-defined disease with a specific dietary treatment. Arch Neurol 1981;38(10):605–606
  • Leys D, Petit H, Bonte-Adnet C, et al. Refsum's disease revealed by cardiac disorders. Lancet 1989;1(8638):621
  • Plant GR, Hansell DM, Gibberd FB, Sidey MC. Skeletal abnormalities in Refsum's disease (heredopathia atactica polyneuritiformis). Br J Radiol 1990;63(751):537–541
  • Eldjarn L, Try K, Stokke O, et al. Dietary effects on serum-phytanic-acid levels and on clinical manifestations in heredopathia atactica polyneuritiformis. Lancet 1966;1(7439):691–693
  • Gibberd FB, Billimoria JD, Page NG, Retsas S. Heredopathia atactica polyneuritiformis (Refsum's disease) treated by diet and plasma-exchange. Lancet 1979;1(8116):575–578
  • Chowers I, Kerrison JB, Saada A. Mitochondrial and peroxisomal disorders. In: Pediatric retina. Hartnett ME, Trese M, Capone A, Keats BJB, Caputo G, eds. 2nd ed. Philadelphia: Lippincott Williams & Wilkins, 2013. pp 227–239
  • Haas RH, Parikh S, Falk MJ, et al. Mitochondrial disease: a practical approach for primary care physicians. Pediatrics 2007;120(6):1326–1333
  • Schrier SA, Falk MJ. Mitochondrial disorders and the eye. Curr Opin Ophthalmol 2011;22(5):325–331
  • Pfeffer G, Sirrs S, Wade NK, Mezei MM. Multisystem disorder in late-onset chronic progressive external ophthalmoplegia. Can J Neurol Sci 2011;38(1):119–123
  • Moraes CT, DiMauro S, Zeviani M, et al. Mitochondrial DNA deletions in progressive external ophthalmoplegia and Kearns-Sayre syndrome. N Engl J Med 1989;320(20):1293–1299
  • Zeviani M, Moraes CT, DiMauro S, et al. Deletions of mitochondrial DNA in Kearns-Sayre syndrome. Neurology 1988;38(9):1339–1346
  • Filosto M, Mancuso M, Nishigaki Y, et al. Clinical and genetic heterogeneity in progressive external ophthalmoplegia due to mutations in polymerase gamma. Arch Neurol 2003;60(9):1279–1284
  • DiMauro S, Garone C. Historical perspective on mitochondrial medicine. Dev Disabil Res Rev 2010;16(2):106–113
  • Makela-Bengs P, Suomalainen A, Majander A, et al. Correlation between the clinical symptoms and the proportion of mitochondrial DNA carrying the 8993 point mutation in the NARP syndrome. Pediat Res 1995;37(5):634–639
  • Puddu P, Barboni P, Mantovani V, et al. Retinitis pigmentosa, ataxia, and mental retardation associated with mitochondrial DNA mutation in an Italian family. Br J Ophthalmol 1993;77(2):84–88
  • Ortiz RG, Newman NJ, Shoffner JM, et al. Variable retinal and neurologic manifestations in patients harboring the mitochondrial DNA 8993 mutation. Arch Ophthalmol 1993;111(11):1525–1530
  • Tatuch Y, Pagon RA, Vlcek B, et al. The 8993 mtDNA mutation: heteroplasmy and clinical presentation in three families. Eur J Human Genet 1994;2(1):35–43
  • Cohen BH. Neuromuscular and systemic presentations in adults: Diagnoses beyond MERRF and MELAS. Neurotherapeutics 2013;10(2):227–242
  • Branham K, Yashar BM. Providing comprehensive genetic-based ophthalmic care. Clin Genet 2013;84(2):183–189
  • Gilissen C, Hoischen A, Brunner HG, Veltman JA. Disease gene identification strategies for exome sequencing. Eur J Hum Genet 2012;20(5):490–497

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