Siglec-7 glyco-immune binding mAbs or NK cell engager biologics induce potent antitumor immunity against ovarian cancers.

Ovarian cancer (OC) is a lethal gynecologic malignancy, with modest responses to CPI. Engagement of additional immune arms, such as NK cells, may be of value. We focused on Siglec-7 as a surface antigen for engaging this population. Human antibodies against Siglec-7 were developed and characterized. Coculture of OC cells with PBMCs/NKs and Siglec-7 binding antibodies showed NK-mediated killing of OC lines. Anti-Siglec-7 mAb (DB7.2) enhanced survival in OC-challenged mice. In addition, the combination of DB7.2 and anti-PD-1 demonstrated further improved OC killing in vitro. To use Siglec-7 engagement as an OC-specific strategy, we engineered an NK cell engager (NKCE) to simultaneously engage NK cells through Siglec-7, and OC targets through FSHR. The NKCE demonstrated robust in vitro killing of FSHR+ OC, controlled tumors, and improved survival in OC-challenged mice. These studies support additional investigation of the Siglec-7 targeting approaches as important tools for OC and other recalcitrant cancers.

Developing Effective Cancer Vaccines Using Rendered-Inactive Tumor Cells.

Cancer is a major public health threat, and researchers are constantly looking for new ways to develop effective treatments. One approach is the use of cancer vaccines, which work by boosting the body's immune system to fight cancer. The goal of this study was to develop an effective cancer vaccine using rendered-inactive tumor cells. A CMS5 fibrosarcoma tumor model in BALB/c mice and an E.G7 lymphoma tumor model in C57BL/6 mice were used to evaluate how mitomycin C-inactivated tumor cells mediated tumor protection. The results showed that immunization with inactivated CMS5 cells significantly improved tumor suppression after a challenge with live CMS5 tumor cells, but no effect was observed using the E.G7 tumor model. The results suggested that DC (dendritic cell) responses to tumor antigens are critical. The maturation and activation of DCs were effectively promoted by mitomycin C-treated CMS5 cells, as well as enhanced phagocytosis ability in vitro. The tumor-protective effects established by the vaccination of inactivated CMS5 cells were CD8+ T cell-dependent, as the antitumor responses disappeared after eliminating CD8+ T cells. It was found that the tumor-prevention efficacy was dramatically increased by combining inactivated CM55 tumor cells with anti-CD25 antibodies to temporarily deplete Treg cells (regulatory T cells). This strategy could also significantly induce the rejection against E.G7 tumors. In addition, vaccination with anti-CD25 antibodies plus inactivated CMS5 cells elicited antitumor responses against heterologous tumors. According to the findings of this study, combining the immunization of inactivated tumor cells with an anti-CD25 antibody may be an effective method for cancer prevention.

Transient regulatory-T-cell interruption promotes skin-resident memory T cells mediated tumor protection.

Most cancer immunotherapy approaches aim to stimulate cytotoxic CD8+ T lymphocytes to reject tumor cells. Due to the tumor-mediated suppressive micro-environment, of which the major contributor is regulatory T cells (Tregs), promising preclinical approaches were disappointing in clinical settings. Our recent study demonstrated that transient interruption of Tregs could induce CD8+ T cell responses to reject tumors in an animal model. The long-term tumor protective effect has yet not to be investigated. In this study, mice with Treg depletion rejected tumors and were rechallenged to study anti-tumor memory immune responses. The effects of major immune cell subsets on tumor protection were explored. Finally, we demonstrate that transient depletion of Tregs during primary tumor challenge can result in long-lasting protection against the tumor rechallenge. Skin-resident memory T cells (sTRM) were major factors in rejecting rechallenged tumors even when peripheral T cells were deficient. These findings highlight a promising strategy for empowering tissue-resident memory T cells for cancer prevention and immunotherapy in humans by interrupting Tregs.

Chimeric antigen receptor clustering via cysteines enhances T-cell efficacy against tumor.

Chimeric antigen receptor (CAR) T-cell therapy achieves great success for hematological malignancies. However, clinical trials have revealed some limitations in both improving the efficacy and reducing the relapse, which calls for innovative strategies to engineer more powerful CAR-T cells. Promoting the formation of CAR clusters provides an alternative approach and potentially improves current CAR T-cell therapy against cancers. Here, we generated CARCys-T cells using a 4-1BB-derived hinge region including 11 cysteines residues. The cysteines in the hinge were found to facilitate CARCys clustering upon antigen stimulation and promote the antitumor activity of CAR-T cells. Compared with most conventionally used CAR-T cells with CD8α-derived hinge (CARconv-T cells), CARCys-T cells exhibited larger diameter of CAR clusters and enhanced antigen-specific tumor lysis both in vitro and in vivo. In addition, the CARCys-mediated enhancement could be applied to HER2, CD19 as well as GPC3-targeted CAR-T cells. More importantly, CARCys-T cells showed potent antitumor efficacy in clinically relevant patient-derived primary tumor cells and organoids. Thus, the novel hinge containing 11 cysteines provides a promising strategy to facilitate CAR clustering and maximize anti-tumor activity of CAR-T cells, which emphasizes the importance of CAR clustering to improve CAR T-cell therapy in the clinic.

Rational construction of controllable autoimmune diabetes model depicting clinical features.

Through animal models, particularly non-obesity diabetes model (NOD), pathological understandings of human autoimmune diabetes have been gained. However, features of those mouse models and the human disease are not sufficiently analogous; it is therefore not unexpected that interventions based on the mouse data fail at an alarming rate in clinical settings. An improvised model that maximally resembles the real pathological course is highly desirable. Here we devised a 'double-hit' strategy, pancreas was first hit by chemical damage (streptozotocin, STZ) to unleash auto-antigens, then hit second time by transient immune-inflammation (regulatory T cell depletion). Comparing to NOD model, this strategy not only induced classical diabetic symptoms, but also depicted the crucial pathogenic features absent in conventional models, such as CD8+ T cell dominant infiltrates, strong ketoacidosis and epitope-specific T cell responses. In addition, this model allowed synchronized control of disease onset, permitting more refined temporal analysis of disease progression. We believe that this model would yield research outcomes with clinically relevant prediction power unattainable previously.

Emergency Management of Medical Wastewater in Hospitals Specializing in Infectious Diseases: A Case Study of Huoshenshan Hospital, Wuhan, China.

Medical wastewater originating from hospitals specializing in infectious diseases pose a major risk to human and environmental health during pandemics. However, there have been few systematic studies on the management of this type of wastewater management. The function of the Huoshenshan Hospital as a designated emergency field hospital for the treatment of COVID-19 has provided lessons for the management measures of medical wastewater, mainly including: (1) Modern information technology, management schemes, and related standard systems provided the legislative foundation for emergency management of medical wastewater. (2) The three-tier prevention and control medical wastewater management system ensured the discharged wastewater met water quality standards, especially for the leak-proof sealed collection system of the first tier, and the biological and chemical treatment technology of the second tier. (3) The establishment of an effective three-tier medical wastewater quality monitoring accountability system. This system was particularly relevant for ensuring continuous data monitoring and dynamic analysis of characteristic indicators. (4) Information disclosure by government and public supervision promoted successful implementation of medical wastewater management and control measures. Public questionnaires (n = 212) further confirmed the effectiveness of information disclosure. The results of this study can act as methodological reference for the emergency management of wastewater in designated infectious disease hospitals under similar situations.

Precise Spatiotemporal Interruption of Regulatory T-cell-Mediated CD8+ T-cell Suppression Leads to Tumor Immunity.

Tumors can develop despite the presence of competent host immunity via a complex system of immune evasion. One of the most studied factors originating from the host is immune suppression by regulatory T cells (Treg). Ample laboratory and clinical evidence suggests that Treg ablation leads to robust antitumor immune activation. However, how Tregs specifically achieve their suppression in the context of tumor progression is not entirely clear, particularly with regard to the timing and location where Treg inhibition takes place. In this work, we report that Tregs migrate to tumor-draining lymph nodes (TDLN) and block expression of sphingosine-1-phosphate receptor 1 (S1P1) on CD8+ T cells. This event trapped the CD8+ T cells in the TDLN and served as a facilitating factor for tumor growth. Intriguingly, minimalistic depletion of Tregs in TDLN in a short window following tumor inoculation was sufficient to restore CD8+ T-cell activities, which resulted in significant tumor reduction. Similar treatments outside this time frame had no such effect. Our work therefore reveals a subtle feature in tumor biology whereby Tregs appear to be driven by newly established tumors for a programmed encounter with newly activated CD8+ T cells in TDLN. Our results suggest the possibility that clinical interception of this step can be tested as a new strategy of cancer therapy, with expected high efficacy and low systemic side effects. SIGNIFICANCE: These findings reveal a strong tumor suppressive effect invoked by minimal blockade of tumor draining lymph node regulatory T cells during early versus late tumorigenesis.

Microneedles Improve the Immunogenicity of DNA Vaccines.

DNA vaccines can elicit both humoral and cellular immune responses in mice. However, their poor immunogenicity is a major obstacle toward clinical applications. Improving the efficiency of delivery of DNA vaccines has become a key issue. Vaccination via microneedles penetrating the epidermis can dramatically enhance the stimulation of immune responses. This study showed that by using microneedles to deliver DNA vaccines, gene expression and corresponding immune responses were greatly improved compared to conventional needle injection. The quantitative analysis of gene expressions was made at 6, 24, 72, and 144 h after the DNA delivery. DNA expression levels increased in a time-dependent manner and were substantially greater than with syringe injection after 6 h and 24 h. This elevated expression was followed by markedly enhanced immune responses, with 6-10 times higher levels of antibody and T-cell responses.

Lactic acid bacteria-specific induction of CD4+Foxp3+T cells ameliorates shrimp tropomyosin-induced allergic response in mice via suppression of mTOR signaling.

The beneficial effects of probiotics have been described in allergic sensitization and diseases; however, many questions remain unanswered, such as characteristics of the most effective strains in modulation of allergic responses and how orally administered probiotics affect the systemic immune system. In the present work, oral administration of five lactic acid bacteria strains showed variable effects on protection against the allergic reaction in a mouse model of food allergy to shrimp tropomyosin (ST). The most effective anti-allergic strain, Bacillus coagulans 09.712 (Bc), greatly improved epithelial barrier function and increased lymphocytes proliferation. Moreover, Bc suppresses ST sensitization by altering Th1/Th2/Treg balance as a result of strong induction of CD4+Foxp3+Tregs in combination with IL-10 producing. Bc-specific induction of CD4+Foxp3+ Tregs also suppresses Th17 pro-inflammatory response in this mouse model. Finally, the intake of Bc suppresses mTOR activation and thus the phosphorylation of downstream factors. Inhibition of mTOR signaling by Bc further results in FOXP3 up-regulation and GATA-3 down-regulation, which, in turn, facilitate to control Th2-predominant and Th17 pro-inflammatory responses caused by ST. Our work provides further characterization of the anti-allergic effects of probiotic LAB strains, and identifies new targets for preventive and curative treatment of food allergies.

Comparison of the proliferation, cytotoxic activity and cytokine secretion function of cascade primed immune cells and cytokine-induced killer cells in vitro.

The present study aimed to compare the antitumor effects of cascade primed immune (CAPRI) cells and cytokine-induced killer (CIK) cells in vitro, through investigating cell morphology, proliferation, cytotoxic activity to tumor cells and the ability of these cells to secrete cytokines. Peripheral blood samples (50 ml) were obtained from three healthy volunteers and peripheral blood mononuclear cells (PBMCs) were obtained from each via Ficoll-Conray density gradient centrifugation. Each suspension of PBMCs (1 x 10(6)/ml) was divided into two parts; CAPRI cells were obtained from one part through a series of induction, amplification and cytokine cultures, while CIK cells were obtained from the other part through induction with different cytokines. During the culture process, the proliferation and morphological changes were observed for the two cell types using Trypan blue staining. At day 14, the cytotoxic activity of the two cell types was examined through determining lactate dehydrogenase release in the presence of K562 leukemia cells and MCF-7 breast cancer cells. In addition, secretory levels of interferon (IFN)-γ and interleukin (IL)-2 were detected using enzyme-linked immunospot (ELISPOT) technology. The results revealed that at day 5 and 14 of culture, there were significantly fewer CAPRI cells compared with CIK cells (P<0.001), although the survival rate of each cell type was >95%. The cytotoxic activity of CAPRI cells towards the K562 cell line was effector-target ratio-dependent (40:1 and 20:1) with values of 55.1 ± 3.25 and 35.0 ± 2.65%, respectively, which were significantly reduced compared with the corresponding data in CIK cells, 60.0 ± 3.03 and 39.7 ± 3.42% (P=0.004 and 0.005, respectively). Furthermore, the cytotoxic activity of CAPRI cells towards MCF-7 cells were 71.5 ± 3.06, 56.0 ± 3.76 and 40.2 ± 2.90% at effector-target ratios 40:1, 20:1 and 10:1, respectively. These data were significantly higher than the corresponding values in CIK cells, 65.4 ± 3.86, 49.5 ± 3.91 and 36.1 ± 3.73% (P=0.002, 0.003 and 0.02, respectively). As determined using ELISPOT technology at different cell concentrations (1 x 10(6)/ml and 5 x 10(5)/ml), IFN-γ secretion levels, determined by the number of spot-forming cells, of CAPRI cells were 126.2 ± 10.31 and 48.8 ± 10.99, respectively, which were significantly reduced compared with those of CIK cells, 409.3 ± 7.76 and 159.3 ± 15.45, respectively (P<0.001). IL-2 secretion levels in CAPRI cells were 325.1 ± 16.24 and 113.8 ± 11.29 at 1 x 10(6)/ml and 5 x 10(5)/ml, respectively, which were significantly increased compared with CIK cells, 212.0 ± 16.58 and 70.7 ± 10.57, respectively (P<0.001). In conclusion, the present study demonstrated that CAPRI cells had a reduced proliferation rate compared with CIK cells as well as a less potent cytotoxic effect on K562 cells; however, the two cell types had potent cytotoxic activity towards solid tumor MCF-7 cells. In addition, CAPRI cells secreted lower levels of IFN-γ and increased levels of IL-2 compared with CIK cells. These results indicated that antitumor activities of CAPRI and CIK cells proceeded via different mechanisms.

Differential expression of miRNA patterns in renal cell carcinoma and nontumorous tissues.

INTRODUCTION: MiRNAs are short single stranded RNAs that are associated with gene regulation at the transcriptional and translational level. Changes in their expression were found in a variety of human cancers. In the present study, we aimed to investigate expression profiles of miRNA (miRNA) in the clear cell subtype of kidney cancer and to develop further understanding of the molecular mechanisms involved in the pathogenesis of renal cell carcinoma. MATERIALS AND METHODS: We analyzed the miRNA expression profiles in 30 pairs of renal cell carcinoma and adjacent nontumorous tissue (NT), using a mammalian miRNA microarray containing whole human mature and precursor miRNA sequences. Real-time quantitative PCR was performed to confirm the array results. RESULTS: The miRNA microarray chip analysis identified 86 miRNAs differentially expressed in renal cell carcinoma tissues and a total of 38 miRNAs exhibited higher expression in the renal cell carcinoma samples than that in the NT samples, while 48 miRNA demonstrated lower expression in the renal cell carcinoma samples than that in the NT samples. CONCLUSION: Quantitative real-time PCR analysis confirmed microarray data. The report supports that many miRNA expressions were altered in renal carcinoma, whose expression profiling may provide a useful clue for the pathophysiology research. However, further longer-term researches are required to investigate the relationship between miRNA and renal carcinoma as well as their role in carcinogenesis.