Sustained treatment of retinal vascular diseases with self-aggregating sunitinib microparticles.
Hiroki TsujinakaJie FuJikui ShenYun YuZibran HafizJoshua KaysDavid McKenzieDelia CardonaDavid CulpWard PetersonBrian C GilgerChristopher S CreanJin-Zhong ZhangYogita KananWeiling YuJeffrey L ClelandMing YangJustin HanesPeter A CampochiaroPublished in: Nature communications (2020)
Neovascular age-related macular degeneration and diabetic retinopathy are prevalent causes of vision loss requiring frequent intravitreous injections of VEGF-neutralizing proteins, and under-treatment is common and problematic. Here we report incorporation of sunitinib, a tyrosine kinase inhibitor that blocks VEGF receptors, into a non-inflammatory biodegradable polymer to generate sunitinib microparticles specially formulated to self-aggregate into a depot. A single intravitreous injection of sunitinib microparticles potently suppresses choroidal neovascularization in mice for six months and in another model, blocks VEGF-induced leukostasis and retinal nonperfusion, which are associated with diabetic retinopathy progression. After intravitreous injection in rabbits, sunitinib microparticles self-aggregate into a depot that remains localized and maintains therapeutic levels of sunitinib in retinal pigmented epithelium/choroid and retina for more than six months. There is no intraocular inflammation or retinal toxicity. Intravitreous injection of sunitinib microparticles provides a promising approach to achieve sustained suppression of VEGF signaling and improve outcomes in patients with retinal vascular diseases.
Keyphrases
- diabetic retinopathy
- metastatic renal cell carcinoma
- optical coherence tomography
- renal cell carcinoma
- age related macular degeneration
- vascular endothelial growth factor
- endothelial cells
- oxidative stress
- ultrasound guided
- type diabetes
- signaling pathway
- optic nerve
- combination therapy
- metabolic syndrome
- diabetic rats
- skeletal muscle
- stress induced
- weight loss
- replacement therapy