Glucagon-like peptide-1 receptor agonists(GLP-1 RA)are a series of polypeptides broadly applied in the long-term treatment of typeⅡdiabetes.However,administration of GLP-RA is mainly through repetitive subcutaneous i...Glucagon-like peptide-1 receptor agonists(GLP-1 RA)are a series of polypeptides broadly applied in the long-term treatment of typeⅡdiabetes.However,administration of GLP-RA is mainly through repetitive subcutaneous injection,which may seriously decrease the compliance and safety.Herein,a bio-inspired oral delivery system was designed to enhance the oral absorption of liraglutide(Lira),a kind of GLP-1 RA,by mimicking the natural cholesterol assimilation.25-hydroxycholesterol(25HC),a cholesterol derivative,was modified on the surfaced of Lira-loaded PLGA nanoparticles(Lira 25HC NPs)and functioned as a“top-down”actuator to facilitate unidirectional transcytosis across the intestinal epithelium.After oral delivery,Lira 25HC NPs displayed improved therapeutic effect as compared with oral free Lira on typeⅡdiabetes db/db mice,as evidenced by multiple relieved diabetic symptoms including the enhanced glucose tolerance,repressed weight growth,improved liver glucose metabolism,decreased fasting blood glucose,HbA 1c,serum lipid,and increasedβcells activity.Surprisingly,the fasting blood glucose,liver glucose metabolism,and HbA1c of oral Lira-loaded 25HC NPs were comparable to subcutaneous injection of free Lira.Further mechanisms revealed that 25HC ligand could mediate the nanoparticles to mimic natural cholesterol absorption by exerting high affinity towards apical Niemann-Pick C1 Like 1(NPC1L1)and then basolateral ATP binding cassette transporter A1(ABCA1)overexpressed on the opposite side of intestinal epithelium.This cholesterol assimilation-mimicking strategy achieve the unidirectional transport across the intestinal epithelium,thus improving the oral absorption of liraglutide.In general,this study established a cholesterol simulated platform and provide promising insight for the oral delivery of GLP-1 RA.展开更多
Oral delivery of protein and peptide drugs presents considerable challenges due to their susceptibility to digestive enzymes in gastrointestinal(Gl)tract and low efficiency of transepithelial transport.Herein,inspired...Oral delivery of protein and peptide drugs presents considerable challenges due to their susceptibility to digestive enzymes in gastrointestinal(Gl)tract and low efficiency of transepithelial transport.Herein,inspired by efficient absorption of protein-based nutrients,we constructed several kinds of oral drug delivery systems by mimicking natural amino acid and oligopeptide absorption route.Three kinds of amino acids and two kinds of oligopeptides were chosen as targeting ligands to mediate transportation of orally administered nanoparticles(NPs).Liraglutide(Lira),a kind of glucagon like peptide-1(GLP-1)receptor agonist,was used as model drug.These functionalized NPs could protect Lira from enzymatic degradation in Gl tract.Moreover,compared with amino acid-modified NPs,oligopeptide-modified NPs exhibited greater transepithelial transport efficiency and were primarily absorbed in the proximal small intestine due to the high expression and transportation mediated by proton coupled oligopeptide transporter 1(PEPT1).These Lira-loaded NPs could effectively control the blood glucose level,reduce plasma lipid level,and repair tissue damage on type 2 diabetic mice and even showed comparable hypoglycemic effects of subcutaneous injection(s.c.)free Lira.Our study demonstrates the potential of mimicking natural oligopeptide absorption route to enhance oral delivery of protein and peptide drugs.展开更多
As endogenous courier vesicles,exosomes play crucial roles in macromolecule transmission and intercellular communication.Therefore,exosomes have drawn increasing attention as biomimetic drug-delivery vehicles over the...As endogenous courier vesicles,exosomes play crucial roles in macromolecule transmission and intercellular communication.Therefore,exosomes have drawn increasing attention as biomimetic drug-delivery vehicles over the past few years.However,few studies have investigated the encapsulation of peptide/protein drugs into exosomes for oral administration.Additionally,the mechanisms underlying their biomimetic properties as oral delivery vehicles remain unknown.Herein,insulin-loaded milk-derived exosomes(EXO@INS)were fabricated and the in vivo hypoglycemic effect was investigated on type I diabetic rats.Surprisingly,EXO@INS(50 and 30 IU/kg)elicited a more superior and more sustained hypoglycemic effect compared with that obtained with subcutaneously injected insulin.Further mechanism studies indicated that the origin of excellent oral-performance of milk-derived exosomes combined active multi-targeting uptake,pH adaptation during gastrointestinal transit,nutrient assimilation related ERK1/2 and p38 MAPK signal pathway activation and intestinal mucus penetration.This study provides the first demonstration that multifunctional milk-derived exosomes offer solutions to many of the challenges arising from oral drug delivery and thus provide new insights into developing naturally-equipped nanovehicles for oral drug administration.展开更多
Protein corona(PC)has been identified to impede the transportation of intravenously injected nanoparticles(NPs)from blood circulation to their targeted sites.However,how intestinal PC(IPC)affects the delivery of orall...Protein corona(PC)has been identified to impede the transportation of intravenously injected nanoparticles(NPs)from blood circulation to their targeted sites.However,how intestinal PC(IPC)affects the delivery of orally administered NPs are still needed to be elucidated.Here,we found that IPC exerted“positive effect”or“negative effect”depending on different pathological conditions in the gastrointestinal tract.We prepared polystyrene nanoparticles(PS)adsorbed with different IPC derived from the intestinal tract of healthy,diabetic,and colitis rats(H-IPC@PS,D-IPC@PS,C-IPC@PS).Proteomics analysis revealed that,compared with healthy IPC,the two disease-specific IPC consisted of a higher proportion of proteins that were closely correlated with transepithelial transport across the intestine.Consequently,both D-IPC@PS and C-IPC@PS mainly exploited the recycling endosome and ER-Golgi mediated secretory routes for intracellular trafficking,which increased the transcytosis from the epithelium.Together,disease-specific IPC endowed NPs with higher intestinal absorption.D-IPC@PS posed“positive effect”on intestinal absorption into blood circulation for diabetic therapy.Conversely,CIPC@PS had“negative effect”on colitis treatment because of unfavorable absorption in the intestine before arriving colon.These results imply that different or even opposite strategies to modulate the disease-specific IPC need to be adopted for oral nanomedicine in the treatment of variable diseases.展开更多
基金financial support from National Natural Science Foundation of China (81872818)National Key R&D Program of China (2021YFE0115200)
文摘Glucagon-like peptide-1 receptor agonists(GLP-1 RA)are a series of polypeptides broadly applied in the long-term treatment of typeⅡdiabetes.However,administration of GLP-RA is mainly through repetitive subcutaneous injection,which may seriously decrease the compliance and safety.Herein,a bio-inspired oral delivery system was designed to enhance the oral absorption of liraglutide(Lira),a kind of GLP-1 RA,by mimicking the natural cholesterol assimilation.25-hydroxycholesterol(25HC),a cholesterol derivative,was modified on the surfaced of Lira-loaded PLGA nanoparticles(Lira 25HC NPs)and functioned as a“top-down”actuator to facilitate unidirectional transcytosis across the intestinal epithelium.After oral delivery,Lira 25HC NPs displayed improved therapeutic effect as compared with oral free Lira on typeⅡdiabetes db/db mice,as evidenced by multiple relieved diabetic symptoms including the enhanced glucose tolerance,repressed weight growth,improved liver glucose metabolism,decreased fasting blood glucose,HbA 1c,serum lipid,and increasedβcells activity.Surprisingly,the fasting blood glucose,liver glucose metabolism,and HbA1c of oral Lira-loaded 25HC NPs were comparable to subcutaneous injection of free Lira.Further mechanisms revealed that 25HC ligand could mediate the nanoparticles to mimic natural cholesterol absorption by exerting high affinity towards apical Niemann-Pick C1 Like 1(NPC1L1)and then basolateral ATP binding cassette transporter A1(ABCA1)overexpressed on the opposite side of intestinal epithelium.This cholesterol assimilation-mimicking strategy achieve the unidirectional transport across the intestinal epithelium,thus improving the oral absorption of liraglutide.In general,this study established a cholesterol simulated platform and provide promising insight for the oral delivery of GLP-1 RA.
基金This work was supported by the National Key Research and Development Program of China(No.2021YFE0115200)the Regional Innovation and Development Joint Fund of National Natural Science Foundation of China(No.U22A20356).
文摘Oral delivery of protein and peptide drugs presents considerable challenges due to their susceptibility to digestive enzymes in gastrointestinal(Gl)tract and low efficiency of transepithelial transport.Herein,inspired by efficient absorption of protein-based nutrients,we constructed several kinds of oral drug delivery systems by mimicking natural amino acid and oligopeptide absorption route.Three kinds of amino acids and two kinds of oligopeptides were chosen as targeting ligands to mediate transportation of orally administered nanoparticles(NPs).Liraglutide(Lira),a kind of glucagon like peptide-1(GLP-1)receptor agonist,was used as model drug.These functionalized NPs could protect Lira from enzymatic degradation in Gl tract.Moreover,compared with amino acid-modified NPs,oligopeptide-modified NPs exhibited greater transepithelial transport efficiency and were primarily absorbed in the proximal small intestine due to the high expression and transportation mediated by proton coupled oligopeptide transporter 1(PEPT1).These Lira-loaded NPs could effectively control the blood glucose level,reduce plasma lipid level,and repair tissue damage on type 2 diabetic mice and even showed comparable hypoglycemic effects of subcutaneous injection(s.c.)free Lira.Our study demonstrates the potential of mimicking natural oligopeptide absorption route to enhance oral delivery of protein and peptide drugs.
基金We gratefully acknowledge financial support from the National Science Foundation for Distinguished Young Scholars(81625023,China)the National Natural Science Foundation of China(81872818)the Major Research Plan of National Natural Science Foundation of China(81690261).
文摘As endogenous courier vesicles,exosomes play crucial roles in macromolecule transmission and intercellular communication.Therefore,exosomes have drawn increasing attention as biomimetic drug-delivery vehicles over the past few years.However,few studies have investigated the encapsulation of peptide/protein drugs into exosomes for oral administration.Additionally,the mechanisms underlying their biomimetic properties as oral delivery vehicles remain unknown.Herein,insulin-loaded milk-derived exosomes(EXO@INS)were fabricated and the in vivo hypoglycemic effect was investigated on type I diabetic rats.Surprisingly,EXO@INS(50 and 30 IU/kg)elicited a more superior and more sustained hypoglycemic effect compared with that obtained with subcutaneously injected insulin.Further mechanism studies indicated that the origin of excellent oral-performance of milk-derived exosomes combined active multi-targeting uptake,pH adaptation during gastrointestinal transit,nutrient assimilation related ERK1/2 and p38 MAPK signal pathway activation and intestinal mucus penetration.This study provides the first demonstration that multifunctional milk-derived exosomes offer solutions to many of the challenges arising from oral drug delivery and thus provide new insights into developing naturally-equipped nanovehicles for oral drug administration.
基金financial support from the National Natural Science Foundation of China(No.81872818)the National Key R&D Program of China(No.2021YFE0115200)。
文摘Protein corona(PC)has been identified to impede the transportation of intravenously injected nanoparticles(NPs)from blood circulation to their targeted sites.However,how intestinal PC(IPC)affects the delivery of orally administered NPs are still needed to be elucidated.Here,we found that IPC exerted“positive effect”or“negative effect”depending on different pathological conditions in the gastrointestinal tract.We prepared polystyrene nanoparticles(PS)adsorbed with different IPC derived from the intestinal tract of healthy,diabetic,and colitis rats(H-IPC@PS,D-IPC@PS,C-IPC@PS).Proteomics analysis revealed that,compared with healthy IPC,the two disease-specific IPC consisted of a higher proportion of proteins that were closely correlated with transepithelial transport across the intestine.Consequently,both D-IPC@PS and C-IPC@PS mainly exploited the recycling endosome and ER-Golgi mediated secretory routes for intracellular trafficking,which increased the transcytosis from the epithelium.Together,disease-specific IPC endowed NPs with higher intestinal absorption.D-IPC@PS posed“positive effect”on intestinal absorption into blood circulation for diabetic therapy.Conversely,CIPC@PS had“negative effect”on colitis treatment because of unfavorable absorption in the intestine before arriving colon.These results imply that different or even opposite strategies to modulate the disease-specific IPC need to be adopted for oral nanomedicine in the treatment of variable diseases.
