Puerarin@Chitosan composite for infected bone repair through mimicking the bio-functions of antimicrobial peptides

It is important to eliminate lipopolysaccharide(LPS)along with killing bacteria in periprosthetic joint infection(PJI)therapy for promoting bone repair due to its effect to regulate macrophages response.Although natural antimicrobial peptides(AMPs)offer a good solution,the unknown toxicity,high cost and exogenetic immune response hamper their applications in clinic.In this work,we fabricated a nanowire-like composite material,named P@C,by combining chitosan and puerarin via solid-phase reaction,which can finely mimic the bio-functions of AMPs.Chitosan,serving as the bacteria membrane puncture agent,and puerarin,serving as the LPS target agent,synergistically destroy the bacterial membrane structure and inhibit its recovery,thus endowing P@C with good antibacterial property.In addition,P@C possesses good osteoimmunomodulation due to its ability of LPS elimination and macrophage differentiation modulation.The in vivo results show that P@C can inhibit the LPS induced bone destruction in the Escherichia coli infected rat.P@C exhibits superior bone regeneration in Escherichia coli infected rat due to the comprehensive functions of its superior antibacterial property,and its ability of LPS elimination and immunomodulation.P@C can well mimic the functions of AMPs,which provides a novel and effective method for treating the PJI in clinic.

The microbiota is dispensable for the early stages of peripheral regulatory T cell induction within mesenteric lymph nodes

Intestinal Foxp3+regulatory T cell(Treg)subsets are crucial players in tolerance to microbiota-derived and food-borne antigens,and compelling evidence suggests that the intestinal microbiota modulates their generation,functional specialization,and maintenance.Selected bacterial species and microbiota-derived metabolites,such as short-chain fatty acids(SCFAs),have been reported to promote Treg homeostasis in the intestinal lamina propria.Furthermore,gut-draining mesenteric lymph nodes(mLNs)are particularly efficient sites for the generation of peripherally induced Tregs(pTregs).Despite this knowledge,the direct role of the microbiota and their metabolites in the early stages of pTreg induction within mLNs is not fully elucidated.Here,using an adoptive transfer-based pTreg induction system,we demonstrate that neither transfer of a dysbiotic microbiota nor dietary SCFA supplementation modulated the pTreg induction capacity of mLNs.Even mice housed under germ-free(GF)conditions displayed equivalent pTreg induction within mLNs.Further molecular characterization of these de novo induced pTregs from mLNs by dissection of their transcriptomes and accessible chromatin regions revealed that the microbiota indeed has a limited impact and does not contribute to the initialization of the Treg-specific epigenetic landscape.Overall,our data suggest that the microbiota is dispensable for the early stages of pTreg induction within mLNs.