Linking Adiponectin and Its Receptors to Age-Related Macular Degeneration (AMD).
Mayank ChoubeyMunichandra Babu TirumalasettyNalini S BoraPuran S BoraPublished in: Biomedicines (2023)
In recent years, there has been a captivating focus of interest in elucidating the intricate crosstalk between adiponectin (APN), a versatile fat-associated adipokine and ocular pathologies. Unveiling the intricate relationship between adipocytokine APN and its receptors (AdipoRs) with aging eye disorders has emerged as a fascinating frontier in medical research. This review article delves into this connection, illuminating the hidden influence of APN on retinal health. This comprehensive review critically examines the latest findings and breakthroughs that underscore the pivotal roles of APN/AdipoRs signaling in maintaining ocular homeostasis and protecting against eye ailments. Here, we meticulously explore the intriguing mechanisms by which APN protein influences retinal function and overall visual acuity. Drawing from an extensive array of cutting-edge studies, the article highlights APN's multifaceted functions, ranging from anti-inflammatory properties and oxidative stress reduction to angiogenic regulation within retinal and macula tissues. The involvement of APN/AdipoRs in mediating these effects opens up novel avenues for potential therapeutic interventions targeting prevalent aging eye conditions. Moreover, this review unravels the interplay between APN signaling pathways and age-related macular degeneration (AMD). The single-cell RNA-seq results validate the expression of both the receptor isoforms (AdipoR1/R2) in retinal cells. The transcriptomic analysis showed lower expression of AdipoR1/2 in dry AMD pathogenesis compared to healthy subjects. The inhibitory adiponectin peptide (APN1) demonstrated over 75% suppression of CNV, whereas the control peptide did not exert any inhibitory effect on choroidal neovascularization (CNV). The elucidation of these relationships fosters a deeper understanding of adipose tissue's profound influence on ocular health, presenting new prospects for personalized treatments and preventative measures. Because APN1 inhibits CNV and leakage, it can be used to treat human AMD, although the possibility to treat human AMD is in the early stage and more clinical research is needed. In conclusion, this review provides a captivating journey into the enthralling world of APN, intertwining the realms of adipose biology and ophthalmology in aging.
Keyphrases
- age related macular degeneration
- rna seq
- adipose tissue
- single cell
- optical coherence tomography
- optic nerve
- diabetic retinopathy
- insulin resistance
- oxidative stress
- healthcare
- early stage
- poor prognosis
- endothelial cells
- metabolic syndrome
- public health
- induced apoptosis
- high throughput
- mental health
- physical activity
- type diabetes
- skeletal muscle
- squamous cell carcinoma
- binding protein
- epithelial mesenchymal transition
- artificial intelligence
- induced pluripotent stem cells
- cell proliferation
- lymph node
- machine learning
- high density
- ischemia reperfusion injury
- amino acid
- mass spectrometry
- heat stress