ABSTRACT
Respiratory viral infections (RVI) such as influenza and COVID19 impact the host systemic immune system along with causing deleterious chronic inflammatory responses and respiratory distress. While the role of chronic inflammation in cancer is well-established, the role of RVI on tumorigenesis is poorly defined. To study the role of RVI on breast cancer, we first infected murine respiratory epithelial cells (mRES) with murine sendai virus (mSV), an analog for human parainfluenza virus. These infected mRES were co-cultured with 4T1 murine breast cancer cells in 1:1 dilution on a single 2D plate and also in trans-well format. Both in co-culture and transwell culture we saw a 40- 80% (p<0.05) increased proliferation of breast cancer cells. Similarly, when 4T1 cells were treated with the supernatant collected from infected mRES cells in 1:5 dilution, also demonstrated a 2.3 fold increased breast cancer cell proliferation. The cytokine analysis from the supernatant collected from infected mRES cells demonstrated a 17-23 fold enhanced secretion of alpha/beta-defensins. Direct treatment of alpha-defensin (cyptidin-4, 10 pg/mL) and beta-defensin-3 (mBD3, 20 pg/mL) on 4T1 cells demonstrated enhanced expression of chemokine metastatic receptor, CXCR4 (4.3 fold), angiogenic factor, VEGF (12.8 fold) and cell division favoring factor, CDK2 (8.1 fold). Further, analysis of infected mRES cells demonstrated upregulation of toll-like receptor 2 (TLR2) and NODlike receptor protein 3 (NLRP3) expression. Interesting, co-cultured of infected mRES with syngeneic murine CD4 T cells induced exhaustion phenotype (PD1+ and CTLA4+ ) differentiation of CD4 T cells. Taken together, these data suggest that respiratory viral infections through induction of cancer cell proliferation and inhibiting anti-tumor adaptive immune responses promote breast cancer proliferation.
ABSTRACT
Background: Secondary lymphoid organs provide the adequate microenvironment for the development of antigen (Ag)-specific immune responses. The tight collaboration between CD4+ T cells and B cells in germinal centers is crucial to shape B cell fate and optimize antibody maturation. Dissecting these immune interactions remains challenging in humans, and animal models do not always recapitulate human physiology. To address this issue, we developed an in vitro 3D model of a human lymphoid organ. The model relies on a microfluidic device, enabling primary human cells to self-organize in an extracellular matrix (ECM) under continuous fluid perfusion. We applied this Lymphoid Organ-Chip (LO chip) system to the analysis of B cell recall responses to SARS-CoV-2 antigens. Method(s): We used a two-channel microfluidic Chip S1 from Emulate, where the top channel is perfused with antigen (spike protein or SARS-CoV-2 mRNA vaccine), while the bottom channel contains PBMC (n = 14 independent donors) seeded at high-density in a collagen-based ECM. Immune cell division and cluster formation were monitored by confocal imaging, plasmablast differentiation and spike-specific B cell amplification by flow cytometry, antibody secretion by a cell-based binding assay (S-flow). Result(s): Chip perfusion with the SARS-CoV-2 spike protein for 6 days resulted in the induction CD38hiCD27hi plasmablast maturation compared to an irrelevant BSA protein (P< 0.0001). Using fluorescent spike as a probe, we observed a strong amplification of spike-specific B cell (from 3.7 to 140-fold increase). In line with this rapid memory B cell response, spike-specific antibodies production could be detected as early as day 6 of culture. Spike perfusion also induced CD4+ T cell activation (CD38+ ICOS+), which correlated with the level of B cell maturation. The magnitude of specific B cell amplification in the LO chip was higher than in 2D and 3D static cultures at day 6, showing the added value of 3D perfused culture for the induction of recall responses. Interestingly, the perfusion of mRNA-based SARS-CoV-2 vaccines also led to strong B cell maturation and specific B cell amplification, indicating that mRNA-derived spike could be expressed and efficiently presented in the LO chip. Conclusion(s): We developed a versatile Lymphoid Organ-Chip model suitable for the rapid evaluation of B cell recall responses. The model is responsive to protein and mRNA-encoded antigens, highlighting its potential in the evaluation of SARS-CoV-2 vaccine boosting strategies.
ABSTRACT
This work studied the antioxidant and anti-breast cancer properties of hyaluronidase, extracted from a potential marine strain, Staphylococcus aureus (CASMTK1), isolated from Parangipettai coastal waters in southeast coast of India. The Staphylococcal enzyme production was tested under different carbon and nitrogen sources;and recorded the maximum production when the microbial strain was cultured with starch as the carbon source and ammonium sulphate as the inorganic nitrogen source with the enzyme production of 92.5 U/mL and 95.0 U/mL, respectively. The hyaluronidase enzyme production was also tested in different pH and temperature;and recorded the maximum yield of 102.5 U/mL in pH 5 and that of 95.5 U/mL in 45 °C. The partially purified enzyme was subjected to FTIR and FT Raman technique and found the presence of the amide- I and II, Carboxyl, N-H bending, C-H stretching and α-helices and β-sheet proteins between wave number 1500–1700 cm−1. The partially purified enzyme also exhibited strong antioxidant and in-vitro breast cancer properties. The enzyme showed the highest hydroxyl radical scavenging activity of 79% at the 50 µg/mL concentration, and this activity increased in a dose-dependent manner. The enzyme inhibited proliferation of the breast cancer cell line of MCF-7, and it caused 100% cell death at the concentration of 80 µg/mL. The enzyme generated capacity of producing free radicles that damage the cancer cells, and this effect was very nearer to the standard drug, paclitaxel. The enzyme damaged the cancer cells and induced apoptosis in 78% of cancer cells as evident by condensed or fragmented chromatin at 40 µg/mL. Further purification of the enzyme, analysis of its molecular aspects, and elucidation of exact mechanisms of its biological activities will throw new light on the utility of staphylococcal hyaluronidase in anticancer chemotherapy.
ABSTRACT
The nutritional quality and biomass of various sprouts can be enhanced by Zn and red-blue light, especially the Brassica sprouts. However, the combined effects of this two on sprouts are rarely reported. In this study, different Zn concentrations (0, 1.74, 3.48, 10.43 and 17.39 mM) were combined with two ratios of red-blue light-emitting diodes (LEDs) (R: B = 1:2, 1R2B;R: B = 2:1, 2R1B, at 70 μmol m−2 s−1 PPFD, 14 h/10 h, light/dark) to investigate their mutual effects on the growth, mineral elements, and nutritional quality in flowering Chinese cabbage sprouts (FCCS). Fresh weight, dry weight, contents of organic Zn, soluble sugar, vitamin C, total flavonoids, total polyphenol, FRAP (ferric ion-reducing antioxidant power) and DPPH (radical inhibition percentage of 1,1-diphenyl-2-picrylhydrazyl) were significantly increased by Zn supplement (10.43 and 17.39 mM) and 2R1B, while hypocotyl length and moisture content were decreased remarkably by Zn supplement. Total glucosinolates contents in the sprouts increased dramatically under 2R1B compared with 1R2B, while photosynthetic pigments contents decreased. Heat map and principal component analysis showed that 2R1B + 17.39 mM Zn was the optimal treatment for the accumulation of biomass and health-promoting compound in FCCS, suggesting that a suitable combination of light quality and Zn supplement might be beneficial to zinc-biofortified FCCS production.
ABSTRACT
Molecular profiling has revolutionized the treatment of metastatic NSCLC. Uncommon mutations have been reported primarily in EGFR and BRAF genes and are frequently associated with atypical clinical presentations. Here, we present a rare case of a patient affected by BRAF exon 15 p.K601E-mutated lung cancer with synchronous peritoneal carcinomatosis. First line treatment with chemo-immunotherapy combinations provided a PFS of 8–9 months, whereas a second line treatment with BRAF and MEK inhibitors elicited a dissociated response. The latter clinical outcome suggests that these inhibitors have only partial activity against this rare mutation.
ABSTRACT
Background: As part of a combined HIV CURE immuno-therapy strategy, we transduced primary human NK cells with the high affinity CD64 Fc receptor and pre-loaded them with HIV-specific bNAbs. We named these chimeric NK cells "NuKES" (NK Enhancement Strategy) for their augmented capacity to mediate ADCC and their potential clinical application as an autologous primary NK cell immuno-therapy against HIV. Methods: We transduced primary NK cells from control donors with a lentivirus expressing human CD64 in the presence or absence of irradiated K562 feeder cells expressing co-stimulatory molecules (CD40, 4-1BB) and/or cytokine pre-stimulation (IL-2, IL-21, IL-15). CD64 expressing NK cells were CFSE labeled and expanded ex vivo or FACS sorted at various times post transduction to high purity. CD64 expressing NK cells were then pre-loaded with HIV-specific bNAbs and tested in a functional ADCC CD107a degranulation assay against HIV-1 infected autologous CD4+ primary T cells. Results: After pre-stimulation with cytokines and/or irradiated K562 Feeder Cells, we could routinely achieve (n=5) greater than 40% CD64 expression in primary human NK cells (Day 14 post-transduction shown in Figure 1A). NK cells maintained strong proliferation potential with greater than 6 cells divisions beyond 10 days post transduction as determined by CFSE dilution (Day 10 post-transduction shown in Figure 1B). Phenotypically, CD64 transduced NK cells were similar to control NK cells and possessed strong expression of CD56, CD16, CD69 with intermediate levels of the NK maturation marker CD57. CD64 transduced NK cells could be successfully pre-loaded with HIV-specific bNAbs and possessed an enhanced capacity (GMFI of 2,014 versus 276) to retain 10-1074 for several hours as compared to control NK cells (Figure 1C). Functionally, CD64 transduced NK cells showed a significant two-fold increase in ADCC-triggered degranulation capacity against autologous HIV-1 infected CD4+ primary T cells compared to control NK cells after pre-loading with HIV-specific bNAbs (27.6% versus 13.2% CD107a). Conclusion: Primary human NK cells can be successfully transduced with CD64 and expanded ex vivo to high purity. Preparation of bNAbs specific NuKES represent a viable autologous NK immuno-therapy approach against HIV-1 with potential adaptation for added disease targets (i.e., COVID, Cancer) moving forward.
ABSTRACT
Bendamustine is an alkylating agent classified into the group of nitrogen mustard analogues, synthesized almost sixty years ago. It was registered in former East Germany in 1971 and approved by the US Food and Drug Administration in 2008 for treatment of chronic lymphocytic leukemia and indolent B-cell non-Hodgkin lymphoma. Considering its beneficial properties in the therapy of relapsed or refractory hematological malignancies, synergistic effects with other antineoplastic agents and increasing recent reports on its immunomodulatory effects, bendamustine has once again gained its justified attention. The uniqueness of bendamustine-mediated effects should be observed keeping in mind its distinctive structure with structural similarities to both alkylating agents and purine analogs. In the present review, the current knowledge on the use of bendamustine in oncology, its pharmacokinetics, mechanism of action and toxicity was summarized. In addition, its immune-modulating effects that have not been fully elucidated so far are emphasized, hoping to encourage further investigations of this unique drug.
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The founding principles of honor, academic distinction, and spiritual growth help build a strong sense of community. [...]teaching at a boarding school is a transformative experience for students rooted in self-discovery, which I fully take advantage of through programs like the Washington program. [...]you can create authentic experiences outside the classroom. [...]we have a Harkness discussion about Henrietta Lacks, an African American woman treated in the 1950s for cervical cancer. Relying on organizations such as the National Sci- ence Teaching Association (NSTA) and the National Association of Biology Teachers (NABT) for professional development helped me to expand my knowledge and skills.
ABSTRACT
Viral pathogen infections pose a major global health challenge: the emergence of bacteria and strains of viruses that are resistant to conventional antibiotics and antivirals, and undesirable side effects due to their long-term use, are slowing the use of many antiviral therapies. As a potentially useful tool in the prevention of various pathogens, silver nanoparticles have already demonstrated their potential as an effective antiviral agent thanks to their unique physical and chemical properties. Silver nanoparticles offer an excellent opportunity for new antiviral therapies as they can attack a wide variety of viruses. It has been suggested that AgNPs induces reactive oxygen species and free radicals that induce apoptosis, which leads to cell death and prevents cell replication and cell wall destruction, and smaller nanoparticles have also been shown to be more toxic than larger particles. The toxicity of AgNP depends on the size, concentration, pH of the medium and the duration of exposure to the pathogen. This review examines the antimicrobial mechanisms, deleterious effects, and synthesis of AgNPs.