搜索结果: 'EasySep'

Autologous chondrocyte implantation is the current gold standard cell therapy for cartilage lesions. However,in some instances,the heavily compromised health of the patient can either impair or limit the recovery of the autologous chondrocytes and a satisfactory outcome of the implant. Allogeneic human articular chondrocytes (hAC) could be a good alternative,but the possible immunological incompatibility between recipient and hAC donor should be considered. Herein,we report that allogeneic hAC inhibited T lymphocyte response to antigen-dependent and -independent proliferative stimuli. This effect was maximal when T cells and hAC were in contact and it was not relieved by the addition of exogenous lymphocyte growth factor interleukin (IL)-2. More important,hAC impaired the differentiation of peripheral blood monocytes induced with granulocyte monocyte colony-stimulating factor and IL-4 (Mo) to professional antigen-presenting cells,such as dendritic cells (DC). Indeed,a marked inhibition of the onset of the CD1a expression and an ineffective downregulation of CD14 antigens was observed in Mo-hAC co-cultures. Furthermore,compared to immature or mature DC,Mo from Mo-hAC co-cultures did not trigger an efficacious allo-response. The prostaglandin (PG) E2 present in the Mo-hAC co-culture conditioned media is a putative candidate of the hAC-mediated inhibition of Mo maturation. Altogether,these findings indicate that allogeneic hAC inhibit,rather than trigger,immune response and strongly suggest that an efficient chondrocyte implantation could be possible also in an allogeneic setting. View Publication

Type I IFNs are key mediators of immune defense against viruses and bacteria. Type I IFNs were also previously implicated in protection against fungal infection,but their roles in antifungal immunity have not been thoroughly investigated. A recent study demonstrated that bacterial and fungal β-glucans stimulate IFN-β production by dendritic cells (DCs) following detection by the Dectin-1 receptor,but the effects of β-glucan-induced type I IFNs have not been defined. We investigated whether type I IFNs regulate CD8 T cell activation by fungal β-glucan particle-stimulated DCs. We demonstrate that β-glucan-stimulated DCs induce CD8 T cell proliferation,activation marker (CD44 and CD69) expression,and production of IFN-γ,IL-2,and granzyme B. Moreover,we show that type I IFNs support robust CD8 T cell activation (proliferation and IFN-γ and granzyme B production) by β-glucan-stimulated DCs in vitro and in vivo due to autocrine effects on the DCs. Specifically,type I IFNs promote Ag presentation on MHC I molecules,CD86 and CD40 expression,and the production of IL-12 p70,IL-2,IL-6,and TNF-α by β-glucan-stimulated DCs. We also demonstrate a role for autocrine type I IFN signaling in bacterial LPS-induced DC maturation,although,in the context of LPS stimulation,this mechanism is not so critical for CD8 T cell activation (promotes IFN-γ production but not proliferation or granzyme B production). This study provides insight into the mechanisms underlying CD8 T cell activation during infection,which may be useful in the rational design of vaccines directed against pathogens and tumors. View Publication

SAMHD1 restricts human immunodeficiency virus type 1 (HIV-1) replication in myeloid cells and CD4(+) T cells,while Vpx can mediate SAMHD1 degradation to promote HIV-1 replication. Although the restriction mechanisms of SAMHD1 have been well-described,SAMHD1 expression and Vpx-mediated SAMHD1 degradation during chronic HIV-1 infection were poorly understood. Flow cytometric analysis was used to directly visualize ex vivo,and after in vitro SIV-Vpx treatment,SAMHD1 expression in CD4(+) T cells and monocytes. Here we report activated CD4(+) T cells without SAMHD1 expression were severely reduced,and SAMHD1 in CD4(+) T cells became susceptible to SIV-Vpx mediated degradation during chronic HIV-1 infection,which was absent from uninfected donors. These alterations were irreversible,even after long-term fully suppressive antiretroviral treatment. Although SAMHD1 expression in CD4(+) T cells and monocytes was not found to correlate with plasma viral load,Vpx-mediated SAMHD1 degradation was associated with indicators of immune activation. In vitro assays further revealed that T-cell activation and an upregulated IFN-I pathway contributed to these altered SAMHD1 properties. These findings provide insight into how immune activation during HIV-1 infection leads to irreparable aberrations in restriction factors and in subsequent viral evasion from host antiviral defenses. View Publication

Activin A belongs to the superfamily of transforming growth factor beta (TGF$\beta$) and is a critical regulatory cytokine in breast cancer and inflammation. However,the role of activin A in migration of breast cancer cells and immune cells was not well characterized. Here,a microfluidic device was used to examine the effect of activin A on the migration of human breast cancer cell line MDA-MB-231 cells and human blood neutrophils as well as their migratory interaction. We found that activin A promoted the basal migration but impaired epidermal growth factor (EGF)-induced migration of breast cancer cells. By contrast,activin A reduced neutrophil chemotaxis and transendothelial migration to N-Formyl-Met-Leu-Phe (fMLP). Finally,activin A promoted neutrophil chemotaxis to the supernatant from breast cancer cell culture. Collectively,our study revealed the different roles of activin A in regulating the migration of breast cancer cells and neutrophils and their migratory interaction. These findings suggested the potential of activin A as a therapeutic target for inflammation and breast cancers. View Publication

The recruitment of monocytes and their differentiation into macrophages at sites of inflammation are key events in determining the outcome of the inflammatory response and initiating the return to tissue homeostasis. To study monocyte trafficking and macrophage differentiation in vivo,we have generated a novel transgenic reporter mouse expressing a green fluorescent protein (GFP) under the control of the human CD68 promoter. CD68-GFP mice express high levels of GFP in both monocyte and embryo-derived tissue resident macrophages in adult animals. The human CD68 promoter drives GFP expression in all CD115(+) monocytes of adult blood,spleen,and bone marrow; we took advantage of this to directly compare the trafficking of bone marrow-derived CD68-GFP monocytes to that of CX3CR1(GFP) monocytes in vivo using a sterile zymosan peritonitis model. Unlike CX3CR1(GFP) monocytes,which downregulate GFP expression on differentiation into macrophages in this model,CD68-GFP monocytes retain high-level GFP expression for 72 hours after differentiation into macrophages,allowing continued cell tracking during resolution of inflammation. In summary,this novel CD68-GFP transgenic reporter mouse line represents a powerful resource for analyzing monocyte mobilization and monocyte trafficking as well as studying the fate of recruited monocytes in models of acute and chronic inflammation. View Publication

The p110δ isoform of PI3K is known to play an important role in immunity,yet its contribution to CTL responses has not been fully elucidated. Using murine p110δ-deficient CD8(+) T cells,we demonstrated a critical role for the p110δ subunit in the generation of optimal primary and memory CD8(+) T cell responses. This was demonstrated in both acute viral and intracellular bacterial infections in mice. We show that p110δ signaling is required for CD8(+) T cell activation,proliferation and effector cytokine production. We provide evidence that the effects of p110δ signaling are mediated via Akt activation and through the regulation of TCR-activated oxidative phosphorylation and aerobic glycolysis. In light of recent clinical trials that employ drugs targeting p110δ in certain cancers and other diseases,our study suggests caution in using these drugs in patients,as they could potentially increase susceptibility to infectious diseases. These studies therefore reveal a novel and direct role for p110δ signaling in in vivo CD8(+) T cell immunity to microbial pathogens. View Publication

Hypoxia-inducible transcription factors (HIFs) regulate a wide array of adaptive responses to hypoxia and are often activated in solid tumors and hematologic malignancies due to intratumoral hypoxia and emerging new layers of regulation. We found that in chronic lymphocytic leukemia (CLL),HIF-1α is a novel regulator of the interaction of CLL cells with protective leukemia microenvironments and,in turn,is regulated by this interaction in a positive feedback loop that promotes leukemia survival and propagation. Through unbiased microarray analysis,we found that in CLL cells,HIF-1α regulates the expression of important chemokine receptors and cell adhesion molecules that control the interaction of leukemic cells with bone marrow and spleen microenvironments. Inactivation of HIF-1α impairs chemotaxis and cell adhesion to stroma,reduces bone marrow and spleen colonization in xenograft and allograft CLL mouse models,and prolongs survival in mice. Of interest,we found that in CLL cells,HIF-1α is transcriptionally regulated after coculture with stromal cells. Furthermore,HIF-1α messenger RNA levels vary significantly within CLL patients and correlate with the expression of HIF-1α target genes,including CXCR4,thus further emphasizing the relevance of HIF-1α expression to CLL pathogenesis. View Publication

The youngest peripheral T cells (recent thymic emigrants [RTEs]) are functionally distinct from naive T cells that have completed postthymic maturation. We assessed the RTE memory response and found that RTEs produced less granzyme B than their mature counterparts during infection but proliferated more and,therefore,generated equivalent target killing in vivo. Postinfection,RTE numbers contracted less dramatically than those of mature T cells,but RTEs were delayed in their transition to central memory,displaying impaired expression of CD62L,IL-2,Eomesodermin,and CXCR4,which resulted in impaired bone marrow localization. RTE-derived and mature memory cells expanded equivalently during rechallenge,indicating that the robust proliferative capacity of RTEs was maintained independently of central memory phenotype. Thus,the diminished effector function and delayed central memory differentiation of RTE-derived memory cells are counterbalanced by their increased proliferative capacity,driving the efficacy of the RTE response to that of mature T cells. View Publication

Recent advances in immunometabolism link metabolic changes in stimulated macrophages to production of IL-1β,a crucial cytokine in the innate immune response to Mycobacterium tuberculosis. To investigate this pathway in the host response to M. tuberculosis,we performed metabolic and functional studies on human alveolar macrophages,human monocyte-derived macrophages,and murine bone marrow-derived macrophages following infection with the bacillus in vitro. M. tuberculosis infection induced a shift from oxidative phosphorylation to aerobic glycolysis in macrophages. Inhibition of this shift resulted in decreased levels of proinflammatory IL-1β and decreased transcription of PTGS2,increased levels of anti-inflammatory IL-10,and increased intracellular bacillary survival. Blockade or absence of IL-1R negated the impact of aerobic glycolysis on intracellular bacillary survival,demonstrating that infection-induced glycolysis limits M. tuberculosis survival in macrophages through induction of IL-1β. Drugs that manipulate host metabolism may be exploited as adjuvants for future therapeutic and vaccination strategies. View Publication