While most nanomedicines primarily aim to stimulate the immune system against infections or tumors,there is a growing demand for inducing immune tolerance under certain conditions,such as allergic and autoimmune disea...While most nanomedicines primarily aim to stimulate the immune system against infections or tumors,there is a growing demand for inducing immune tolerance under certain conditions,such as allergic and autoimmune diseases.Researchers have explored nanotechnology-based strategies to induce immune tolerance in a targeted and specific manner.One approach involves the use of nanoparticles(NPs)to encapsulate immunosuppressive drugs and/or antigens to educate naïve T cells and promote the generation of antigen-specific regulatory T cells that inhibit immune responses.However,this approach has certain limitations.The hydrophobicity of proteins or peptides restricts the degree to which they can be encapsulated in NPs,which in turn,affects their loading efficiency and treatment efficacy.With the emergence of mRNA lipid nanoparticle(LNP)platforms,there is the possibility of overcoming the limitations of protein and peptide encapsulation.To date,mRNA LNP systems have been shown to provide organ,cellular,and subcellular targeting for the induction of immune tolerance.This method of drug delivery is flexible and scalable that can be customized for a specific patient,resulting in an effective means of administering relevant proteins or epitopes to induce antigen-specific immune tolerance.With continued research and development,this technology could offer a safer and more effective alternative to current therapies,ultimately improving the quality of life of patients worldwide.展开更多
文摘While most nanomedicines primarily aim to stimulate the immune system against infections or tumors,there is a growing demand for inducing immune tolerance under certain conditions,such as allergic and autoimmune diseases.Researchers have explored nanotechnology-based strategies to induce immune tolerance in a targeted and specific manner.One approach involves the use of nanoparticles(NPs)to encapsulate immunosuppressive drugs and/or antigens to educate naïve T cells and promote the generation of antigen-specific regulatory T cells that inhibit immune responses.However,this approach has certain limitations.The hydrophobicity of proteins or peptides restricts the degree to which they can be encapsulated in NPs,which in turn,affects their loading efficiency and treatment efficacy.With the emergence of mRNA lipid nanoparticle(LNP)platforms,there is the possibility of overcoming the limitations of protein and peptide encapsulation.To date,mRNA LNP systems have been shown to provide organ,cellular,and subcellular targeting for the induction of immune tolerance.This method of drug delivery is flexible and scalable that can be customized for a specific patient,resulting in an effective means of administering relevant proteins or epitopes to induce antigen-specific immune tolerance.With continued research and development,this technology could offer a safer and more effective alternative to current therapies,ultimately improving the quality of life of patients worldwide.
