Macrophage microRNA-150 promotes pathological angiogenesis as seen in age-related macular degeneration
Jonathan B. Lin, Harsh V. Moolani, Abdoulaye Sene, Rohini Sidhu, Pamela Kell, Joseph B. Lin, Zhenyu Dong, Norimitsu Ban, Daniel S. Ory, Rajendra S. Apte
Jonathan B. Lin, Harsh V. Moolani, Abdoulaye Sene, Rohini Sidhu, Pamela Kell, Joseph B. Lin, Zhenyu Dong, Norimitsu Ban, Daniel S. Ory, Rajendra S. Apte
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Research Article Aging Ophthalmology

Macrophage microRNA-150 promotes pathological angiogenesis as seen in age-related macular degeneration

Abstract

Macrophage aging is pathogenic in diseases of the elderly, including age-related macular degeneration (AMD), a leading cause of blindness in older adults. However, the role of microRNAs, which modulate immune processes, in regulating macrophage dysfunction and thereby promoting age-associated diseases is underexplored. Here, we report that microRNA-150 (miR-150) coordinates transcriptomic changes in aged murine macrophages, especially those associated with aberrant lipid trafficking and metabolism in AMD pathogenesis. Molecular profiling confirmed that aged murine macrophages exhibit dysregulated ceramide and phospholipid profiles compared with young macrophages. Of translational relevance, upregulation of miR-150 in human peripheral blood mononuclear cells was also significantly associated with increased odds of AMD, even after controlling for age. Mechanistically, miR-150 directly targets stearoyl-CoA desaturase-2, which coordinates macrophage-mediated inflammation and pathologic angiogenesis, as seen in AMD, in a VEGF-independent manner. Together, our results implicate miR-150 as pathogenic in AMD and provide potentially novel molecular insights into diseases of aging.

Authors

Jonathan B. Lin, Harsh V. Moolani, Abdoulaye Sene, Rohini Sidhu, Pamela Kell, Joseph B. Lin, Zhenyu Dong, Norimitsu Ban, Daniel S. Ory, Rajendra S. Apte

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Figure 3

Aged macrophages have altered ceramide and phospholipid profiles.

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Aged macrophages have altered ceramide and phospholipid profiles. (A) Ag...
(A) Aged macrophages contained significantly more long-chain C16:0 than young macrophages but similar levels of very long-chain C22:0 and C24:0 (n = 5/group; 2-tailed, unpaired Welch’s t test), resulting in decreased C22:0/C16:0 and C24:0/C16:0 ratios (B; n = 5/group; 2-tailed, unpaired Welch’s t test). Young and aged macrophages had similar phosphatidylglycerol-D16:0-18:1 (PG-D16:0-18:1) content (C; n = 5/group; 2-tailed, unpaired student’s t test). Aged macrophages had higher total phosphatidylcholine (PC) (D; n = 5/group; 2-tailed, unpaired student’s t test) and higher total phosphatidylethanolamine (PE) (E; n = 5/group; 2-tailed, unpaired student’s t test), but they had similar total phosphatidylinositol (PI) (F; n = 5/group; 2-tailed, unpaired Welch’s t test) and similar total phosphatidylserine (PS) (G; n = 5/group; 2-tailed, unpaired Welch’s t test). Analysis of individual species revealed an interaction between age and species identity with increased levels of certain species but not others within each phospholipid class (H–K; n = 5/group; 2-way, repeated-measures ANOVA with Bonferroni post-hoc test). Open circles depict individual data points; graphs depict mean ± SEM (A–G) (*P < 0.05; **P < 0.01; #P < 0.0001).