<i>PROM1</i>基因突变致常染色体显性遗传性黄斑营养不良1例_Chinese Journal of Ocular Fundus Diseases

Authors：

宋福艳 , 程朝晖 , 李志清 , 李筱荣 ,  邢东军

天津医科大学眼科医院、眼视光学院、眼科研究所国家眼耳鼻喉疾病临床医学研究中心天津市分中心天津市视网膜功能与疾病重点实验室, 天津 300384;

Corresponding author：

邢东军, Email: woshixingdongjun@126.com

Keywords：

病例报告; PROM1突变; 黄斑营养不良

DOI：

10.3760/cma.j.cn511434-20210914-00513

Video：

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Citation： 宋福艳, 程朝晖, 李志清, 李筱荣, 邢东军. PROM1基因突变致常染色体显性遗传性黄斑营养不良1例. Chinese Journal of Ocular Fundus Diseases, 2022, 38(8): 696-699. doi: 10.3760/cma.j.cn511434-20210914-00513 Copy

1.	Kim JM, Lee C, Lee GI, et al. Identification of the PROM1 mutation p. R373C in a Korean patient with autosomal dominant Stargardt-like macular dystrophy[J]. Ann Lab Med, 2017, 37(6): 536-539. DOI: 10.3343/alm.2017.37.6.536.
2.	Bhattacharya S, Yin JG, Winborn CS, et al. Prominin-1 is a novel regulator of autophagy in the human retinal pigment epithelium[J]. Invest Ophthalmol Vis Sci, 2017, 58(4): 2366-2387. DOI: 10.1167/iovs.16-21162.
3.	Cehajic-Kapetanovic J, Birtel J, McClements ME, et al. Clinical and molecular characterization of PROM1-related retinal degeneration[J/OL]. JAMA Netw Open, 2019, 2(6): e195752[2019-06-05]. https://pubmed.ncbi.nlm.nih.gov/31199449/. DOI: 10.1001/jamanetworkopen.2019.5752.
4.	Liang J, She XJ, Chen JQ, et al. Identification of novel PROM1 mutations responsible for autosomal recessive maculopathy with rod-cone dystrophy[J]. Graefe's Arch Clin Exp Ophthalmol, 2019, 257(3): 619-628. DOI: 10.1007/s00417-018-04206-w.
5.	Collison FT, Fishman GA, Nagasaki T, et al. Characteristic ocular features in cases of autosomal recessive PROM1 cone-rod dystrophy[J]. Invest Ophthalmol Vis Sci, 2019, 60(6): 2347-2356. DOI: 10.1167/iovs.19-26993.
6.	Wang Y, Wang P, Li S, et al. Characterization of PROM1 p. Arg373Cys variant in a cohort of Chinese patients: macular dystrophy plus peripheral bone-spicule degeneration[J]. Invest Ophthalmol Vis Sci, 2021, 62(6): 19. DOI: 10.1167/iovs.62.6.19.
7.	Michaelides M, Gaillard MC, Escher P, et al. The PROM1 mutation p. R373C causes an autosomal dominant Bull's eye maculopathy associated with rod, rod-cone, and macular dystrophy[J]. Invest Ophthalmol Vis Sci, 2010, 51(9): 4771-4780. DOI: 10.1167/iovs.09-4561.
8.	Michaelides M, Johnson S, Poulson A, et al. An autosomal dominant bull's-eye macular dystrophy (MCDR2) that maps to the short arm of chromosome 4[J]. Invest Ophthalmol Vis Sci, 2003, 44(4): 1657-1662. DOI: 10.1167/iovs.02-0941.
9.	Fujinami K, Oishi A, Yang LZ, et al. Clinical and genetic characteristics of 10 Japanese patients withPROM1-associated retinal disorder: a report of the phenotype spectrum and a literature review in the Japanese population[J]. Am J Med Genet C Semin Med Genet, 2020, 184(3): 656-674. DOI: 10.1002/ajmg.c.31826.
10.	Dellett M, Sasai N, Nishide K, et al. Genetic background and light-dependent progression of photoreceptor cell degeneration in prominin-1 knockout mice[J]. Invest Ophthalmol Vis Sci, 2015, 56(1): 164-176. DOI: 10.1167/iovs.14-15479.
11.	Tanna P, Strauss RW, Fujinami K, et al. Stargardt disease: clinical features, molecular genetics, animal models and therapeutic options[J]. Br J Ophthalmol, 2017, 101(1): 25-30. DOI: 10.1136/bjophthalmol-2016-308823.

1. Kim JM, Lee C, Lee GI, et al. Identification of the PROM1 mutation p. R373C in a Korean patient with autosomal dominant Stargardt-like macular dystrophy[J]. Ann Lab Med, 2017, 37(6): 536-539. DOI: 10.3343/alm.2017.37.6.536.
2. Bhattacharya S, Yin JG, Winborn CS, et al. Prominin-1 is a novel regulator of autophagy in the human retinal pigment epithelium[J]. Invest Ophthalmol Vis Sci, 2017, 58(4): 2366-2387. DOI: 10.1167/iovs.16-21162.
3. Cehajic-Kapetanovic J, Birtel J, McClements ME, et al. Clinical and molecular characterization of PROM1-related retinal degeneration[J/OL]. JAMA Netw Open, 2019, 2(6): e195752[2019-06-05]. https://pubmed.ncbi.nlm.nih.gov/31199449/. DOI: 10.1001/jamanetworkopen.2019.5752.
4. Liang J, She XJ, Chen JQ, et al. Identification of novel PROM1 mutations responsible for autosomal recessive maculopathy with rod-cone dystrophy[J]. Graefe's Arch Clin Exp Ophthalmol, 2019, 257(3): 619-628. DOI: 10.1007/s00417-018-04206-w.
5. Collison FT, Fishman GA, Nagasaki T, et al. Characteristic ocular features in cases of autosomal recessive PROM1 cone-rod dystrophy[J]. Invest Ophthalmol Vis Sci, 2019, 60(6): 2347-2356. DOI: 10.1167/iovs.19-26993.
6. Wang Y, Wang P, Li S, et al. Characterization of PROM1 p. Arg373Cys variant in a cohort of Chinese patients: macular dystrophy plus peripheral bone-spicule degeneration[J]. Invest Ophthalmol Vis Sci, 2021, 62(6): 19. DOI: 10.1167/iovs.62.6.19.
7. Michaelides M, Gaillard MC, Escher P, et al. The PROM1 mutation p. R373C causes an autosomal dominant Bull's eye maculopathy associated with rod, rod-cone, and macular dystrophy[J]. Invest Ophthalmol Vis Sci, 2010, 51(9): 4771-4780. DOI: 10.1167/iovs.09-4561.
8. Michaelides M, Johnson S, Poulson A, et al. An autosomal dominant bull's-eye macular dystrophy (MCDR2) that maps to the short arm of chromosome 4[J]. Invest Ophthalmol Vis Sci, 2003, 44(4): 1657-1662. DOI: 10.1167/iovs.02-0941.
9. Fujinami K, Oishi A, Yang LZ, et al. Clinical and genetic characteristics of 10 Japanese patients withPROM1-associated retinal disorder: a report of the phenotype spectrum and a literature review in the Japanese population[J]. Am J Med Genet C Semin Med Genet, 2020, 184(3): 656-674. DOI: 10.1002/ajmg.c.31826.
10. Dellett M, Sasai N, Nishide K, et al. Genetic background and light-dependent progression of photoreceptor cell degeneration in prominin-1 knockout mice[J]. Invest Ophthalmol Vis Sci, 2015, 56(1): 164-176. DOI: 10.1167/iovs.14-15479.
11. Tanna P, Strauss RW, Fujinami K, et al. Stargardt disease: clinical features, molecular genetics, animal models and therapeutic options[J]. Br J Ophthalmol, 2017, 101(1): 25-30. DOI: 10.1136/bjophthalmol-2016-308823.

Chinese Journal of Ocular Fundus Diseases

PROM1基因突变致常染色体显性遗传性黄斑营养不良1例

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