Background
Maintenance of the retina, part of the central nervous system, and other structures in the eye is critical for vision preservation. Aging increases the prevalence of vision impairment, including glaucoma, macular degeneration, and diabetic retinopathy. The retina is primarily maintained by glial cells; however, recent literature suggests that lymphocytes may play a role in the homeostasis of central nervous system tissues. Natural antibodies are produced by B cells without infection or immunization and maintain tissue homeostasis. Here, we explored the potential role of natural immunoglobulin M (IgM) produced by B lymphocytes in maintaining retinal health during aging in mice.
Conclusions
These data suggest a previously unrecognized association between a lack of secreted IgM and alterations in the retinal microenvironment, leading to enhanced retinal degeneration during aging. Although the precise mechanism remains unclear, these findings highlight the potential importance of secreted IgM in processes that support retinal health over time. By increasing our understanding of ocular aging, these results show that there is a broader role for the immune system in retinal function and integrity in advanced age, opening new areas for the exploration of immune-related interventions in age-associated retinal conditions.
Results
Our results indicate that the vitreous humor of both mice and humans contains IgM and IgG, suggesting that these immunoglobulins may play a role in ocular function. Furthermore, we observed that aged mice lacking secreted IgM (µs-/-) exhibited pronounced retinal degeneration, accompanied by reactive gliosis, and a proinflammatory cytokine environment. This contrasts with the aged wild-type counterparts, which retain their ability to secrete IgM and maintain a better retinal structure and anti-inflammatory environment. In addition to these findings, the absence of secreted IgM was associated with significant alterations in the retinal pigment epithelium, including disruptions to its morphology and signs of increased stress. This was further observed in changes to the blood-retinal-barrier, which is critical for regulation of retinal homeostasis. Conclusions: These data suggest a previously unrecognized association between a lack of secreted IgM and alterations in the retinal microenvironment, leading to enhanced retinal degeneration during aging. Although the precise mechanism remains unclear, these findings highlight the potential importance of secreted IgM in processes that support retinal health over time. By increasing our understanding of ocular aging, these results show that there is a broader role for the immune system in retinal function and integrity in advanced age, opening new areas for the exploration of immune-related interventions in age-associated retinal conditions.