RESUMO
Apolipoproteins (APO proteins) are the lipoprotein family proteins that play key roles in transporting lipoproteins all over the body. There are nearly more than twenty members reported in the APO protein family, among which the A, B, C, E, and L play major roles in contributing genetic risks to several disorders. Among these genetic risks, the single nucleotide polymorphisms (SNPs), involving the variation of single nucleotide base pairs, and their contributing polymorphisms play crucial roles in the apolipoprotein family and its concordant disease heterogeneity that have predominantly recurred through the years. In this review, we have contributed a handful of information on such genetic polymorphisms that include APOE, ApoA1/B ratio, and A1/C3/A4/A5 gene cluster-based population genetic studies carried throughout the world, to elaborately discuss the effects of various genetic polymorphisms in imparting various medical conditions, such as obesity, cardiovascular, stroke, Alzheimer's disease, diabetes, vascular complications, and other associated risks.
RESUMO
Herein, we posit a biocompatible and pH-switchable integrated nano-delivery of CBP/ICG to the in vitro and in vivo experiments demonstrate that nanoparticles (NPs) have insignificant toxicity and good biocompatibility, and possess excellent tumor targeting efficiency as evidenced by highly efficient tumor ablation under near -infrared (NIR) illumination. In addition, we have conjugated folic acid as a targeting ligand for folate receptor-targeted delivery. Particularly, targeted delivery of dual CBP/ICG loaded NPs provide targeted detection and transporting potential to specific receptor-expressing tumors, and then CBP interfering with DNA damage and ICG generates singlet oxygen as well as photothermal heat when irradiated with NIR for simultaneous trimodal PDT/PTT/Chemotherapy. Using an animal model, a dramatic reduction in tumor growth without any evidence of significant long-term toxicity to organs after administration of NPs for trimodal therapy subjecting to NIR illumination. Thus, the in vivo satisfactory antitumor trimodal combined efficacy concurrent with complete tumor eradication and promising potential for advanced clinical phototherapy.