Wnt5 controls splenic myelopoiesis and neutrophil functional ambivalency during DSS-induced colitis.

Neutrophils are important innate immune cells with plasticity, heterogenicity, and functional ambivalency. While bone marrow is often regarded as the primary source of neutrophil production, the roles of extramedullary production in regulating neutrophil plasticity and heterogenicity in autoimmune diseases remain poorly understood. Here, we report that the lack of wingless-type MMTV integration site family member 5 (WNT5) unleashes anti-inflammatory protection against colitis in mice, accompanied by reduced colonic CD8+ T cell activation and enhanced splenic extramedullary myelopoiesis. In addition, colitis upregulates WNT5 expression in splenic stromal cells. The ablation of WNT5 leads to increased splenic production of hematopoietic niche factors, as well as elevated numbers of splenic neutrophils with heightened CD8+ T cell suppressive capability, in part due to elevated CD101 expression and attenuated pro-inflammatory activities. Thus, our study reveals a mechanism by which neutrophil plasticity and heterogenicity are regulated in colitis through WNT5 and highlights the role of splenic neutrophil production in shaping inflammatory outcomes.

The CUL5 E3 ligase complex negatively regulates central signaling pathways in CD8+ T cells.

CD8+ T cells play an important role in anti-tumor immunity. Better understanding of their regulation could advance cancer immunotherapies. Here we identify, via stepwise CRISPR-based screening, that CUL5 is a negative regulator of the core signaling pathways of CD8+ T cells. Knocking out CUL5 in mouse CD8+ T cells significantly improves their tumor growth inhibiting ability, with significant proteomic alterations that broadly enhance TCR and cytokine signaling and their effector functions. Chemical inhibition of neddylation required by CUL5 activation, also enhances CD8 effector activities with CUL5 validated as a major target. Mechanistically, CUL5, which is upregulated by TCR stimulation, interacts with the SOCS-box-containing protein PCMTD2 and inhibits TCR and IL2 signaling. Additionally, CTLA4 is markedly upregulated by CUL5 knockout, and its inactivation further enhances the anti-tumor effect of CUL5 KO. These results together reveal a negative regulatory mechanism for CD8+ T cells and have strong translational implications in cancer immunotherapy.

Recombinant MUC1-MBP fusion protein combined with CpG2006 vaccine induces antigen-specific CTL responses through cDC1-mediated cross-priming mainly regulated by type I IFN signaling in mice.

In this study, we explored the initiation and regulation mechanism of antigen-specific CTL responses induced by a novel cancer vaccine containing recombinant human mucin1-maltose-binding protein fusion protein (MUC1-MBP) and CpG2006. First, DC subsets were analyzed by flow cytometry in vivo and in vitro. After vaccination, the proportion and maturation of cDC1s in mouse dLNs were upregulated, and the proportion of cDC2s and pDCs was also increased. In vitro studies on vaccine components showed similar changs, which may mainly depend on the activity of CpG2006. Subsequently, the regulatory effect of type Ⅰ IFN signaling on CTL triggering was confirmed through co-culture of sorted DC subsets and T cells and subsequent CTL activity experiments. CTL killing activity exhibited a 61.9% decrease once type I IFN signaling was blocked. Further analysis showed that blocking IFNAR1 on cDC1s but not on CTLs resulted in significant defects in CTL killing activity. Collectively, M-M combined with CpG2006 vaccine promotes MUC1-specific CTL responses by increasing the cDC1 activity in mice, and this is mainly regulated by type Ⅰ IFN signaling in cDC1s.

TRAF6-overexpressing dendritic cells loaded with MUC1 peptide enhance anti-tumor activity in B16-MUC1 melanoma-bearing mice.

Tumor necrosis factor receptor (TNFR)-associated factor 6 (TRAF6) signaling is a critical positive mechanism for the development, homeostasis and activation of immune cells. We investigated the effect of TRAF6 overexpression on dendritic cells (DCs) maturation. TRAF6-overexpressing DCs had increased expression of costimulatory molecules, major histocompatibility complex (MHC) molecules and IL-12 expression. This indicated that TRAF6 promoted the maturation of DCs and indirectly promoted Th1 activation. The antitumor activities between TRAF6-overexpressing DCs and control DCs were compared by administering DCs pulsed with mucin 1 (MUC1) Ag peptide in a therapeutic human MUC1-overexpressing mouse B16 melanoma cells (B16-MUC1) model. Administration of TRAF6-overexpressing DCs significantly inhibited the growth of B16-MUC1 tumors, accompanied by an increase in MUC1-specific Th1 responses and Tc1 responses, as well as a decrease in Tregs levels. TRAF6 signaling has been found to be involved in DCs maturation and Th1 activation in vitro, as well as therapeutic tumor models in vivo, indicating that TRAF6-overexpressing DCs may be a promising approach for cancer immunotherapy.

Anti-PD1 antibody enhances the anti-tumor efficacy of MUC1-MBP fusion protein vaccine via increasing Th1, Tc1 activity and decreasing the proportion of MDSC in the B16-MUC1 melanoma mouse model.

In previous studies, we have obtained a notable anti-tumor efficacy of the recombinant MUC1-MBP vaccine in the process of mouse B16-MUC1 melanoma treatment. However, the tumor cannot be eliminated completely. We found that the tumor inhibition rate decreased from 81.67% (five immunizations) to 43.67% (eight immunizations) after more than five immunizations, indicating persistent vaccine stimulation may activate immunosuppressive factors. In the present study, we revealed that programmed cell death 1 (PD1), an inhibitory molecule suppressing T cell function, expressed on splenic and tumor-infiltrating T cells were up-regulated by the vaccine. Therefore, to optimize the anti-tumor efficacy of the vaccine, we employed combination immunotherapy with MUC1-MBP vaccine and αPD1 (anti-PD1 antibody). Results showed that combination immunotherapy induced a more remarkable anti-tumor efficacy, the tumor clearance being increased to 80% from 20% which obtain by MUC1-MBP vaccine immunizations. To investigate the possible underlying mechanism, IFN-γ secretion and cytotoxic T lymphocyte (CTL) cytotoxicity were measured by enzyme-linked immunosorbent assay (ELISA) and xCELLigence real-time cell analyzer (RTCA) respectively. T cell subsets and immunosuppressive cells in the mouse spleen and tumor microenvironment were analyzed by FACS. Results showed that the proportion of splenic CD8+T cells and tumor infiltration was increased and the activity of CTL killing, T helper 1 (Th1), Type 1 CD8+T (Tc1) was enhanced, indicating that the anti-tumor efficacy enhanced by combination immunotherapy was mainly through boosting CD8+T cells mediated anti-tumor cellular immunity. Additionally, combination immunotherapy significantly decreased the splenic and tumor-infiltrating myeloid derived suppressor cells (MDSCs). These results demonstrated that combination immunotherapy with MUC1-MBP vaccine and αPD1 was capable to invoke a more potent anti-tumor immune response and provide a foundation for further research.

Dual roles of myeloid-derived suppressor cells induced by Toll-like receptor signaling in cancer.

Myeloid-derived suppressor cells (MDSCs) are one of the major components of the tumor microenvironment (TME), and are the main mediators of tumor-induced immunosuppression. Recent studies have reported that the survival, differentiation and immunosuppressive activity of MDSCs are affected by the Toll-like receptor (TLR) signaling pathway. However, the regulatory effect of TLR signaling on MDSCs remains controversial. TLR-induced MDSC can acquire different immunosuppressive activities to influence the immune response that can be either beneficial or detrimental to cancer immunotherapy. The present review summarizes the effects of TLR signals on the number, phenotype and inhibitory activity of MDSCs, and their role in cancer immunotherapy, which cannot be ignored if effective cancer immunotherapies are to be developed for the immunosuppression of the TME.

The Effect of Different Immunization Cycles of a Recombinant Mucin1-Maltose-Binding Protein Vaccine on T Cell Responses to B16-MUC1 Melanoma in Mice.

We explored the effect of a recombinant mucin1-maltose-binding protein vaccine, including immunization cycles of recombinant mucin1-maltose-binding protein (MUC1-MBP) and CpG 2006 on T cell responses to human MUC1-overexpressing mouse melanoma B16 cells (B16-MUC1) melanoma in mice. We found that the vaccine had a significant antitumor effect, with the most obvious tumor-suppressive effect being observed in mice immunized five times. After more than five immunizations, the tumor inhibition rate decreased from 81.67% (five immunizations) to 43.67% (eight immunizations). To study the possible mechanism, Mucin-1(MUC1)-specific antibodies, IFN-γ secretion by lymphocytes, and cytotoxic T lymphocyte (CTL) cytotoxicity were measured by enzyme-linked immunosorbent assay (ELISA) and a real-time cell analyzer (RTCA). T cell subsets and immunosuppressive cells in the mouse spleen and tumor microenvironment were analyzed by FACS. These results showed that five immunizations activated MUC1-specific Th1 and CTL and reduced the ratio of myeloid-derived suppressor cells (MDSCs) and Th17 in mice more significantly than eight immunizations, indicating that excessive frequency of the immune cycle leads to the increased numbers of immunosuppressive cells and decreased numbers of immunostimulatory cells, thereby inhibiting antitumor immune activity. This data provide an experimental foundation for the clinical application of a recombinant MUC1-MBP vaccine.

CpG ODN1826 as a Promising Mucin1-Maltose-Binding Protein Vaccine Adjuvant Induced DC Maturation and Enhanced Antitumor Immunity.

Mucin 1 (MUC1), being an oncogene, is an attractive target in tumor immunotherapy. Maltose binding protein (MBP) is a potent built-in adjuvant to enhance protein immunogenicity. Thus, a recombinant MUC1 and MBP antitumor vaccine (M-M) was constructed in our laboratory. To enhance the antitumor immune activity of M-M, CpG oligodeoxynucleotides 1826 (CpG 1826), a toll-like receptor-9 agonist, was examined in this study as an adjuvant. The combination of M-M and CpG 1826 significantly inhibited MUC1-expressing B16 cell growth and prolonged the survival of tumor-bearing mice. It induced MUC1-specific antibodies and Th1 immune responses, as well as the Cytotoxic T Lymphocytes (CTL) cytotoxicity in vivo. Further studies showed that it promoted the maturation and activation of the dendritic cell (DC) and skewed towards Th1 phenotype in vitro. Thus, our study revealed that CpG 1826 is an efficient adjuvant, laying a foundation for further M-M clinical research.

[TRUS-guided transperineal biopsy with 9 + X method for the diagnosis of prostate carcinoma: retrospective analysis of 420 cases].

OBJECTIVE: To explore the clinical value and safety of TRUS-guided transperineal biopsy with the 9 + X method in the diagnosis of prostate carcinoma. METHODS: A total of 420 men underwent TRUS-guided transperineal biopsy with the 9 + X method for suspected prostate carcinoma. Their clinical data were retrospectively analyzed. RESULTS: Prostate carcinoma was detected in 160 (38.1%) of the 420 cases, accounting for 7.4%, 17.8% and 65.4% in those with PSA < 4.0 microg/L, 4 -10 microg/L and > 10 microg/L respectively, 25.0% in those with abnormal findings on digital rectal examination (DRE), and 22.2% in those with abnormal echoes on TRUS or abdominal ultrasound examination. Complications after prostatic biopsy included gross hematuria in 79 cases (18.8%), acute urinary retention in 13 (3.1%) and fever in 9 (2.1%), but no other serious complications were observed. CONCLUSION: TRUS-guided transperineal biopsy with the 9 + X method, with high accuracy and fewer complications, is an ideal approach to the diagnosis of prostate carcinoma.

[Diagnosis and treatment of primary epididymal tumor: a report of 35 cases].

OBJECTIVE: To explore the diagnosis and treatment of primary epididymal tumor. METHODS: We retrospectively analyzed the clinical data of 35 cases of pathologically confirmed primary epididymal tumor. Of the total number of patients, 10 underwent tumor excision, 23 received epididymectomy, 1 was treated by simple orchidoepididymectomy, and by radical orchidoepididymectomy with second-stage retroperitoneal lymph node dissection. RESULTS: Postoperative pathology confirmed 33 cases of benign tumor (including 21 adenomatoid tumor, 7 leiomyoma, 4 fibroma, and 1 papillary cystadenoma), and 2 cases of malignancy (1 malignant fibrous histiocytoma and 1 adenocarcinoma). The follow-up lasted 10 months to 6 years, which revealed no recurrence, metastasis and death. CONCLUSION: Primary epididymal tumor is difficult to be definitely diagnosed preoperatively. Surgical exploration is the first choice for those highly suspected of the disease. Tumor excision or epididymectomy can be considered for benign cases, while radical orchidoepididymectomy with retroperitoneal lymph node dissection is recommended in case of malignancy.