A spontaneous nonhuman primate model of inherited retinal degeneration
Wei Yi, Mingming Xu, Ying Xue, Yingxue Cao, Ziqi Yang, Lingli Zhou, Yang Zhou, Le Shi, Xiaomei Mai, Zehui Sun, Wenjie Qing, Yuying Li, Aolun Qing, Kaiwen Zhang, Lechun Ou, Shoudeng Chen, Elia J. Duh, Xialin Liu
Wei Yi, Mingming Xu, Ying Xue, Yingxue Cao, Ziqi Yang, Lingli Zhou, Yang Zhou, Le Shi, Xiaomei Mai, Zehui Sun, Wenjie Qing, Yuying Li, Aolun Qing, Kaiwen Zhang, Lechun Ou, Shoudeng Chen, Elia J. Duh, Xialin Liu
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Research Article Genetics Ophthalmology

A spontaneous nonhuman primate model of inherited retinal degeneration

Abstract

Inherited retinal degenerations (IRDs) are important causes of progressive, irreversible blindness. Hereditary macular diseases, in particular, are significant in their effect on the specialized, central cone photoreceptor–rich macula responsible for high resolution vision. Autosomal dominant Best vitelliform macular dystrophy (BVMD), caused by variants in the BEST1 gene, is one of the most common inherited macular dystrophies. Gene therapies have emerged as promising treatments for IRDs, but a lack of suitable animal models has hindered progress both in treatments and in understanding the mechanisms underlying macular diseases. Here, we report a Macaca fascicularis carrying a heterozygous potential pathogenic BEST1p.Q327E variant that disrupts the BEST1 ion channel by destabilizing the A195 helix, mirroring the structural perturbations seen in certain human pathological mutants. Longitudinal imaging over 2 years revealed progressive macular changes, including subfoveal cleft enlargement, lipid-rich deposit accumulation, retinal pigment epithelium (RPE) disruption, and central-to-peripheral photoreceptor degeneration, recapitulating early human BVMD pathology. Histopathology demonstrated diminished BEST1 expression, attenuation of the RPE-photoreceptor interface, and 2 distinct types of lipid deposits, including heretofore unappreciated cone mitochondrial-enriched lesions, highlighting selective cone mitochondria vulnerability. This is, to our knowledge, the first nonhuman primate model of inherited macular dystrophy, and it links BEST1 mutations, mitochondrial dysfunction, and progressive macular degeneration, offering new insights into BVMD pathophysiology and highlighting its utility for studying disease progression and potential therapeutic interventions.

Authors

Wei Yi, Mingming Xu, Ying Xue, Yingxue Cao, Ziqi Yang, Lingli Zhou, Yang Zhou, Le Shi, Xiaomei Mai, Zehui Sun, Wenjie Qing, Yuying Li, Aolun Qing, Kaiwen Zhang, Lechun Ou, Shoudeng Chen, Elia J. Duh, Xialin Liu

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Figure 6

Alteration of outer retinal bands of OCT scans during disease progression in the Q327 mutant macaque.

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Alteration of outer retinal bands of OCT scans during disease progressio...
(A) Schematic representation of the structure of photoreceptor cells and RPE cells and their corresponding bands in the OCT image. ONL, outer nuclear layer; ELM, external limiting membrane; MZ, myoid zone of the photoreceptors; EZ, ellipsoid zone of the photoreceptors; OS, outer-segments; RPE-IZ, the RPE-Bruch’s membrane (BM) complex and the RPE-photoreceptor interface (interdigitation zone, IZ). (B and C) Longitudinal OCT scans show changes in the outer retinal bands (scanning locations indicated as red lines in the B-AF images on top) during follow-up imaging of the left (B) and right (C) eyes. The RPE-IZ shows early attenuation with time and the EZ showed a wave-like pattern following the RPE-IZ attenuation, with hyperreflective deposits appearing above the RPE-IZ band beneath the waves at some locations (yellow arrows). The schematic B-AF images are the same as the 26th month B-AF image shown in the Figure 2E. (D) Hypothesis for the early progression of Best disease. The RPE-photoreceptor interface is the first to be damaged, leading to cellular dysfunction. The accumulation of membrane discs beneath the OS and damaged cone mitochondria in the macula further exacerbates the damage. This results in the death of RPE and photoreceptor cells in the macula. Corresponding changes in OCT imaging include initial thinning of RPE-IZ, followed by distortion of EZ band, accumulation of deposits, and thinning of the ONL, progressing in a center-to-peripheral pattern in the macula.