Bardet-Biedl Syndrome in rhesus macaques: A nonhuman primate model of retinitis pigmentosa

The development of therapies for retinal disorders is hampered by a lack of appropriate animal models. Higher nonhuman primates are the only animals with retinal structure similar to humans, including the presence of a macula and fovea. However, few nonhuman primate models of genetic retinal disease...

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Published in:Experimental eye research 2019-12, Vol.189, p.107825-107825, Article 107825
Main Authors: Peterson, Samuel M., McGill, Trevor J., Puthussery, Teresa, Stoddard, Jonathan, Renner, Lauren, Lewis, Anne D., Colgin, Lois M.A., Gayet, Jacqueline, Wang, Xiaojie, Prongay, Kamm, Cullin, Cassandra, Dozier, Brandy L., Ferguson, Betsy, Neuringer, Martha
Format: Article
Language:English
Subjects:
Adaptor Proteins, Signal Transducing - genetics
Adaptor Proteins, Signal Transducing - metabolism
Animals
Bardet-Biedl syndrome
Bardet-Biedl Syndrome - complications
Bardet-Biedl Syndrome - diagnosis
Bardet-Biedl Syndrome - genetics
Blindness
Blindness - etiology
Brain - pathology
Ciliopathy
Cytoskeletal Proteins - genetics
Cytoskeletal Proteins - metabolism
Disease Models, Animal
DNA - genetics
DNA Mutational Analysis
Electroretinography
Female
Fluorescein Angiography - methods
Frameshift Mutation
Fundus Oculi
Immunohistochemistry
Inherited retinal degeneration
Macaca mulatta
Magnetic Resonance Imaging
Male
Nonhuman primate model
Photoreceptor degeneration
Retina - pathology
Retinitis pigmentosa
Retinitis Pigmentosa - genetics
Tomography, Optical Coherence - methods
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Summary:The development of therapies for retinal disorders is hampered by a lack of appropriate animal models. Higher nonhuman primates are the only animals with retinal structure similar to humans, including the presence of a macula and fovea. However, few nonhuman primate models of genetic retinal disease are known. We identified a lineage of rhesus macaques with a frameshift mutation in exon 3 of the BBS7 gene c.160delG (p.Ala54fs) that is predicted to produce a non-functional protein. In humans, mutations in this and other BBS genes cause Bardet-Biedl syndrome, a ciliopathy and a syndromic form of retinitis pigmentosa generally occurring in conjunction with kidney dysfunction, polydactyly, obesity, and/or hypogonadism. Three full- or half-sibling monkeys homozygous for the BBS7 c.160delG variant, at ages 3.5, 4 and 6 years old, displayed a combination of severe photoreceptor degeneration and progressive kidney disease. In vivo retinal imaging revealed features of severe macular degeneration, including absence of photoreceptor layers, degeneration of the retinal pigment epithelium, and retinal vasculature atrophy. Electroretinography in the 3.5-year-old case demonstrated loss of scotopic and photopic a-waves and markedly reduced and delayed b-waves. Histological assessments in the 4- and 6-year-old cases confirmed profound loss of photoreceptors and inner retinal neurons across the posterior retina, with dramatic thinning and disorganization of all cell layers, abundant microglia, absent or displaced RPE cells, and significant gliosis in the subretinal space. Retinal structure, including presence of photoreceptors, was preserved only in the far periphery. Ultrasound imaging of the kidneys revealed deranged architecture, and renal histopathology identified distorted contours with depressed, fibrotic foci and firmly adhered renal capsules; renal failure occurred in the 6-year-old case. Magnetic resonance imaging obtained in one case revealed abnormally low total brain volume and unilateral ventricular enlargement. The one male had abnormally small testes at 4 years of age, but polydactyly and obesity were not observed. Thus, monkeys homozygous for the BBS7 c.160delG variant closely mirrored several key features of the human BBS syndrome. This finding represents the first identification of a naturally-occurring nonhuman primate model of BBS, and more broadly the first such model of retinitis pigmentosa and a ciliopathy with an associated genetic mutation. This imp
ISSN:0014-4835
1096-0007
DOI:10.1016/j.exer.2019.107825