The milk fat globule membrane(MFGM)is a complex structure with numerous functions,and its composition is affected by many factors.There have been few systematic investigations on goat MFGM proteome profiling during la...The milk fat globule membrane(MFGM)is a complex structure with numerous functions,and its composition is affected by many factors.There have been few systematic investigations on goat MFGM proteome profiling during lactation.Individual milk samples from 15 healthy dairy goats were obtained at six lactation time points for investigation of the MFGM proteome using both data-independent acquisition(DIA)and data-dependent acquisition(DDA)proteomics techniques combined with multivariate statistical analysis.Using the DIA method,890 variably abundant MFGM proteins were discovered throughout the lactation cycle.From 1 to 240 d,butyrophilin subfamily 1 member A1,lipoprotein lipase,perilipin-2,and adipose triglyceride lipase were upregulated,while APOE,complement C3,clusterin,and IgG were downregulated.Furthermore,from 1 to 90 d,annexin A1,annexin A2,and antithrombin-ll were downregulated,then upregulated by d 240.Albumin had a high degree of connectedness,indicating that it was a key protein,according to protein-protein interaction research.Overall,our findings gave new insights into the biological features of MFGM protein in goat milk throughout lactation,which may aid in the creation of specialized MFGM products and infant formula.展开更多
Microglia are considered to be potential anti- gen-presenting cells and have the ability to present antigen under pathological conditions. Nevertheless, whether and how microglia are involved in immune regulation are ...Microglia are considered to be potential anti- gen-presenting cells and have the ability to present antigen under pathological conditions. Nevertheless, whether and how microglia are involved in immune regulation are lar- gely unknown. Here, we investigated the suppressive activity of microglia during experimental autoimmune encephalomyelitis (EAE) induced by myelin oligodendro- cyte glycoprotein, with the goal of understanding their role in regulating the T cell reaction. Using flow cytometric analysis, we found that microglia were characterized by increased cell number and up-regulated programmed death ligand-1 (PD-L1) at the peak phase of EAE. Meanwhile, both the CD4+ T cells and microglia that infiltrated the central nervous system expressed higher levels of PD1, the receptor for PD-L1, accompanied by a decline of Thl cells. In an ex vivo co-culture system, microglia from EAE mice inhibited the proliferation of antigen-specific CD4+ T cells and the differentiation of Thl cells, and this was significantly inhibited by PD-L 1 blockade. Further, microglia suppressed Thl cells via nitric oxide (NO), the production of which was dependent on PD-L1. Thus, these data suggest a scenario in which microglia are involved in the regulation of EAE by suppressing Thl-cell differenti- ation via the PD-L1-NO pathway.展开更多
Shape memory materials possess programmable complex and large deformations towards external stimuli,which are particularly essential for their potential applications.For the transformation of planar two-dimensional(2D...Shape memory materials possess programmable complex and large deformations towards external stimuli,which are particularly essential for their potential applications.For the transformation of planar two-dimensional(2D)structures into complex 3D structures,the design of asymmetric or bilayer thin sheets is usually required.In this paper,we propose a facile strategy to achieve these complex 3D structures that can be transformed to various pre-determined shapes sequentially by laser-triggered site-specific deformations.The response of shape memory polycaprolactone(PCL)to laser is realized by physically dopingW18O49 nanowires into the cross-linked PCL diacrylate matrix.When irradiated by 98 mW cm^(−2)laser,the pre-stretched PCL/W_(18)O_(49)film shows an out-of-plane bending deformation due to the temperature gradient and single-domain orientation on the thickness between the upper layer and lower layer.The bending rates and amplitudes of the film can be tailored by adjusting the parameters of irradiation time,the film thickness as well as the pre-stretch strain.Remarkably,the pre-stretched film can automatically bend in more intricate complex deformations by integration with kirigami cuts in planar.Finally,we demonstrate that by activating the dynamic transesterification reaction within the same film,it can also achieve the 2D-to-3D transformations.With these decent features,this kind of novel PCL//W_(18)O_(49)film shows great potential in the field of biomedical devices or soft robotics.展开更多
基金This work was supportedby theNational KeyR&D Program of China(2022YFD1301005)the Shandong Provincial Natural Science Foundation,China(ZR2022MC184)the High-level Talents Foundation of Qingdao Agricultural University,China(665/1120053,665/1120080).
文摘The milk fat globule membrane(MFGM)is a complex structure with numerous functions,and its composition is affected by many factors.There have been few systematic investigations on goat MFGM proteome profiling during lactation.Individual milk samples from 15 healthy dairy goats were obtained at six lactation time points for investigation of the MFGM proteome using both data-independent acquisition(DIA)and data-dependent acquisition(DDA)proteomics techniques combined with multivariate statistical analysis.Using the DIA method,890 variably abundant MFGM proteins were discovered throughout the lactation cycle.From 1 to 240 d,butyrophilin subfamily 1 member A1,lipoprotein lipase,perilipin-2,and adipose triglyceride lipase were upregulated,while APOE,complement C3,clusterin,and IgG were downregulated.Furthermore,from 1 to 90 d,annexin A1,annexin A2,and antithrombin-ll were downregulated,then upregulated by d 240.Albumin had a high degree of connectedness,indicating that it was a key protein,according to protein-protein interaction research.Overall,our findings gave new insights into the biological features of MFGM protein in goat milk throughout lactation,which may aid in the creation of specialized MFGM products and infant formula.
基金supported by the National Natural Science Foundation of China(81070961,81273212,81202308,81302604,31300730,81172882and 81241052)the Natural Science Foundation of Shandong Province(ZR2011CM037)
文摘Microglia are considered to be potential anti- gen-presenting cells and have the ability to present antigen under pathological conditions. Nevertheless, whether and how microglia are involved in immune regulation are lar- gely unknown. Here, we investigated the suppressive activity of microglia during experimental autoimmune encephalomyelitis (EAE) induced by myelin oligodendro- cyte glycoprotein, with the goal of understanding their role in regulating the T cell reaction. Using flow cytometric analysis, we found that microglia were characterized by increased cell number and up-regulated programmed death ligand-1 (PD-L1) at the peak phase of EAE. Meanwhile, both the CD4+ T cells and microglia that infiltrated the central nervous system expressed higher levels of PD1, the receptor for PD-L1, accompanied by a decline of Thl cells. In an ex vivo co-culture system, microglia from EAE mice inhibited the proliferation of antigen-specific CD4+ T cells and the differentiation of Thl cells, and this was significantly inhibited by PD-L 1 blockade. Further, microglia suppressed Thl cells via nitric oxide (NO), the production of which was dependent on PD-L1. Thus, these data suggest a scenario in which microglia are involved in the regulation of EAE by suppressing Thl-cell differenti- ation via the PD-L1-NO pathway.
文摘Shape memory materials possess programmable complex and large deformations towards external stimuli,which are particularly essential for their potential applications.For the transformation of planar two-dimensional(2D)structures into complex 3D structures,the design of asymmetric or bilayer thin sheets is usually required.In this paper,we propose a facile strategy to achieve these complex 3D structures that can be transformed to various pre-determined shapes sequentially by laser-triggered site-specific deformations.The response of shape memory polycaprolactone(PCL)to laser is realized by physically dopingW18O49 nanowires into the cross-linked PCL diacrylate matrix.When irradiated by 98 mW cm^(−2)laser,the pre-stretched PCL/W_(18)O_(49)film shows an out-of-plane bending deformation due to the temperature gradient and single-domain orientation on the thickness between the upper layer and lower layer.The bending rates and amplitudes of the film can be tailored by adjusting the parameters of irradiation time,the film thickness as well as the pre-stretch strain.Remarkably,the pre-stretched film can automatically bend in more intricate complex deformations by integration with kirigami cuts in planar.Finally,we demonstrate that by activating the dynamic transesterification reaction within the same film,it can also achieve the 2D-to-3D transformations.With these decent features,this kind of novel PCL//W_(18)O_(49)film shows great potential in the field of biomedical devices or soft robotics.
