Huang, Chia-Ling, Qiu, Yubin, Demirs, John, Wu, Xiaoqiu, Twarog, Michael, Delgado, Omar, Crowley, Maura, Buchanan, Natasha, Vo, Nhi-1, Fan, Lin, Wang, Yanqun, Yang, Junzheng, Vollmer, Tom, Klokman, Garrett, Jose, Sandra, Aranda, Jorge, Prasanna, Ganesh, Poor, Stephen, Grosskreutz, Cynthia, Olsen, Timothy, Wilson, Chris, Saint-Geniez, Magali and Liao, Sha-Mei (2025) Identification of cellular and molecular risk signatures for progression to late stage of age-related macular degeneration through utilization of the 9-step Minnesota Grading System. BioRxiv.

Abstract

Age-related macular degeneration (AMD) is a complex multifactorial disease, and the molecular mechanisms underpinning the progression of intermediate AMD to geographic atrophy are not fully understood. To better understand mechanisms driving progression, we performed bulk RNA sequencing on dissected macular and peripheral RPE/choroid and neural retina tissue from postmortem human eyes graded using the 9-step Minnesota Grading System (MGS). Binning of intermediate AMD cases into three distinct groups (AMD3L, AMD3M, AMD3H) based on the 5-year risk of progression enabled identification of distinct gene and pathway changes associated with progression to late-stage disease. Identified changes in gene expression were validated using ELISA or histological methods. RPE-specific genes and lipid metabolic pathways showed a transient increase in AMD3L followed by a pronounced decrease in AMD3H. In AMD3H, immune response genes such as C3, TREM2, and OLR1 were upregulated when compared to AMD3L samples, as well as genes specific to Müller glia/astrocytes (NGFR, SPP1, GPX3). Our findings support complement inhibition as a promising therapeutic option for slowing conversion to advanced AMD and identify macrophage and Müller/astrocyte genes as potential cell types to target in AMD. Further, we demonstrate the value of combining emerging, outcomes-based, clinically relatable grading systems with profiling technologies to generate new insights in ocular diseases.

Item Type:	Article
Date Deposited:	15 Oct 2025 00:45
Last Modified:	15 Oct 2025 00:45
URI:	https://oak.novartis.com/id/eprint/57951