A Case of X-Linked Moesin-Associated Immune Deficiency in a Pediatric Patient

Background: X-Linked Moesin-Associated Immune Deficiency (X-MAID) is a rare severe combined immunodeficiency (SCID) subtype that can present at any age due to its variability. Depending on severity, patients demonstrate failure to thrive, recurrent bacterial and viral infections, and increased susceptibility to varicella zoster. It has been characterized by marked lymphopenia with hypogammaglobulinemia and impaired T-cell migration and proliferation. Case Presentation: This is a report of a Cuban 7-year-old male with poor weight gain and facial dysmorphia. He had a history of recurrent bacterial gastrointestinal infections and pneumonia beginning at 4 months of age. He additionally had 4-6 upper respiratory tract and ear infections annually. While still living in Cuba, he was admitted for a profound EBV infection in the setting of significant leukopenia. A bone marrow biopsy confirmed no malignancy. After he moved to the United States, his laboratory work-up revealed marked leukopenia with low absolute neutrophil and lymphocyte count with low T and B cells, very low immunoglobulin levels IgG, IgA, and IgM, and poor vaccination responses to streptococcus pneumonia, varicella zoster, and SARS-CoV-2. Genetic testing revealed a missense pathogenic variant c.511C>T (p.Arg171Trp) in the moesin (MSN) gene associated with X-MAID. He was managed with Bactrim and acyclovir prophylaxis, and immunoglobulin replacement therapy, and considered for hematopoietic stem cell transplantation. Discussion(s): Diagnosis of X-MAID should be considered in patients with recurrent infections and profound lymphopenia. As with SCID, early diagnosis and intervention is of utmost importance to prevent morbidity and mortality. This case demonstrates the importance of genetic testing in identifying this disease as it may prompt an immunologist to consider HSCT if conservative management is suboptimal. In the current literature, HSCT appears promising, but the long-term outcomes have yet to be described.Copyright © 2023 Elsevier Inc.

CD40.SARS.CoV2 VACCINE, BUT NOT mRNA, INDUCES SPECIFIC CD8+ T MEMORY STEM CELLS

Background: Vaccination plays a major role in controlling SARS-CoV2 infection but faces the issue of short-term protection. Beyond the generation of Abs, induction of memory CD8+T cells with stem cell-like (Tscm) properties is essential for long-term immunity to viruses. We have designed a sub-unit CD40.CoV-2 vaccine which targets Spike (S) and nucleocapsid (N) regions from SARS-CoV-2 to antigen presenting cells with comparable immunogenicity and protective effect than mRNA BNT162b2 (Pfizer-BioNTech) in preclinical models (Coleon S. EBioMed 2022). We hypothesized that CD40.CoV2 vaccine will elicit CD8+ Tscm cells. Method(s): CD40.CoV2 vaccine is a fully humanized mAb fused to RBD (aa 318-541) and N (aa 276-411). Humanized (hu) NSG mice (HIS-mice) (n=6/ group) received: i) CD40.CoV2 (10 mug equal to 1.3 mug of RBD, i.p.) +/- poly-ICLC (TLR3 agonist;50mug) or ii) BNT162b2 (1mug, i.m.);iii) IgG4.CoV2 (10mug, i.p.) as non-CD40-targeting control. Phenotype and function of splenic S and N-specific T cells were assessed at W5. Result(s): The CD40.CoV2 vaccine +/- poly-CLC induced significant S and N-specific Th1 huCD4+, cytokines-secreting huCD8+ T cells and RBD-specific IgG-switched huB cells as compared to mock injections and non-targeted IgG4.CoV2. CD40.CoV-2 vaccine +/- adjuvant induced higher frequencies of huCD8+ Tscm (CD95+ CD45RA+ CD62L+ ;median, (IQR) 22.4% (12.3-27.4) and 23% (20.7-29.1) +/- adjuvant, respectively) and central memory (TCM;CD45RA- CD62L+) CD8+ T cells (2.7% (2.3-6.2) and 5.1% (3.8-7.8) +/- adjuvant, respectively). In contrast, BNT162b2 induced predominantly effector memory (TEM, CD45RA- CD62L- ;median, (IQR) 63.1% (47.3-72.3)) but not Tscm (1.6% (0.9-6.6)) (figure). CD40.CoV-2 induced huCD8+ Tscm cells exhibit ;i) a higher proliferation index than TCM and TEM;ii) a functional profile secreting TNF and IFNgamma after restimulation with RBD or N peptides;cardinal features of Tscm cells. Conclusion(s): The CD40.SARS.CoV2, but not BNT162b2 vaccine, stimulates selective enrichment in S-and N-specific CD8+ Tscm cells that support longlasting anti-viral immunity. CD40.CoV2 sub-unit is under clinical development as a booster vaccine aimed to maintain durable anti-viral T and humoral responses. (Figure Presented).

Severe combined immunodeficiencies

Severe Combined Immunodeficiencies (SCID) are a group of childhood diseases with a very serious prognosis. They occur with a frequency of 1 in 40–100,000 children under one year of age. Early diagnosis is the main prognostic factor for the success of therapy. If left untreated, it is fatal. Causal treatment is haematopoietic stem cell transplan-tation. Since January 2022, a pilot newborns screening project for SCID has been running in the Czech Republic. This article presents case reports of two patients with SCID diagnosed in our department in 2021. The first is an 8-month-old boy hospitalized for bilateral pneumonia with respiratory insufficiency. Pneumocystis jiroveci was iden-tified as the causative agent. The condition was preceded by a period of failure to thrive and laboratory findings of lymphopenia. Additional immunological examination revealed severe hypogammaglobulinemia with impaired specific antibody production and T lymphopenia with low activation tests. Genetic testing revealed an X-linked form of SCID (defect in the IL2 receptor gene;c.925-13>G). The boy was subsequently successfully transplanted. Second case report of a 2-month-old girl hospitalized for severe infection with concurrent SARS-CoV-2 positivity with fatal outcome. Post mortem findings were generalized CMV infection, severe thymic dysplasia with absence of T lymphocytes. The cause was determined to be an autosomal recessive form of SCID with mutation of the IL7 receptor gene (biallelic defect NM_002185.5: c.132C >A, p. Ser44Arg, a c.514delG, p. Glu172Lysfs*10). © 2023, Czech Medical Association J.E. Purkyne. All rights reserved.

Design and field procedures for the clinical reappraisal of the Composite International Diagnostic Interview version 3.3 in Qatar's national mental health study.

BACKGROUND: The Composite International Diagnostic Interview (CIDI) has been clinically reappraised in several studies conducted mainly in the US and Europe. This report describes the methodology used to conduct one of the Middle East's largest clinical reappraisal studies. The study was carried out in conjunction with the World Mental Health Qatar-the first national psychiatric epidemiological study of common mental disorders in the country. This study aimed to evaluate the diagnostic consistency of core modules of the newly translated and adapted Arabic version of the CIDI 5.0 against the independent clinical diagnoses based on the Structured Clinical Interview for DSM-5 (SCID-5). METHODS: Telephone follow-up interviews were administered by trained clinicians using the latest research edition of the SCID for DSM-5. Telephone administered interviews were key in the data collection, as the study took place during the COVID-19 pandemic. RESULTS: Overall, within 12 months, 485 interviews were completed. The response rate was 52%. Quality control monitoring documented excellent adherence of clinical interviews to the rating protocol. CONCLUSIONS: The overall methods used in this study proved to be efficient and effective. For future research, instrument cultural adaptation within the cultural context is highly recommended.

Use of Hu-PBL Mice to Study Pathogenesis of Human-Restricted Viruses.

Different humanized mouse models have been developed to study human diseases such as autoimmune illnesses, cancer and viral infections. These models are based on the use of immunodeficient mouse strains that are transplanted with human tissues or human immune cells. Among the latter, mice transplanted with hematopoietic stem cells have been widely used to study human infectious diseases. However, mouse models built upon the transplantation of donor-specific mature immune cells are still under development, especially in the field of viral infections. These models can retain the unique immune memory of the donor, making them suitable for the study of correlates of protection upon natural infection or vaccination. Here, we will review some of these models and how they have been applied to virology research. Moreover, the future applications and the potential of these models to design therapies against human viral infections are discussed.

Synergistic anti-tumor effect of Allocetra-OTS in combination with immune checkpoint inhibitors (ICI)/chemotherapy/CAR T, through in-vivo reprogramming of macrophages

Background: ICI revolutionized solid tumor treatment, however, in many tumors only partial response is achieved. Here we investigated the anti-tumoral effect of Allocetra—OTS cellular therapy, in solid tumor models. Methods: Allocetra-OTS is manufactured from enriched mononuclear fractions and induced to undergo early apoptosis.Balb/c mice were inoculated in the peritoneal cavity with AB12 (mesothelioma) stably transduced with pLenti-PGK-V5-Luc-Neo for IVIS visualization and treated with anti-CTLA4, anti-PD1, or cisplatin, with or without Allocetra-OTS (also administered as monotherapy). Kaplan-Meier log rank test was done for survival. CAR T model was induced in SCID-Bg mice were inoculated intraperitoneally with human HeLa-CD19, followed by treatment with 10×109 cells of Allocetra-OTS or vehicle, and 1×107 CD19-CAR T cells or mock T cells. Results: Anti-CTLA4 therapy significantly improved survival from mean 34±9 to 44.9 ±20 days (p<0.05). However, Allocetra-OTS monotherapy improved survival to 52.3 ±20 days (p<0.02) and anti-CTLA4 + Allocetra-OTS combination therapy to 86.7±20 days (p<0.0001) with complete cancer remission in 60-100% of mice. Similar results were seen in combination therapy with either anti-PD1 or cisplatin. In the CAR-T model, SCID-Bg mice survived 30±5 days (range 27–37) and were sacrificed or died from tumor progression. Results were verified using IVIS of intraperitoneal HeLaCD19-Luc cells. CAR T cell therapy significantly improved survival to 55±11 days (p < 0.05 vs MOCK) but Alloctra-OTS further improved survival to 75±10 (p < 0.001) with 20-40% complete remission. Conclusions: During intraperitoneal tumor progression, Allocetra-OTS as monotherapy or in combination with ICI, cisplatin or CAR-T therapy, significantly reduced tumor size and resulted in complete remission in up to100% treated mice. Based on excellent safety profile in > 40 patients treated in prior clinical trials for sepsis and COVID-19, phase I/II clinical trial of Allocetra-OTS plus chemotherapy is planned for Q3 2022, and a second phase I/II clinical trial of Allocetra-OTS plus anti-PD1, as a second- and third-line therapy in various cancers, is planned for Q4 2022. Legal entity responsible for the study: The authors. Funding: Enlivex Therapeutics Ltd. Disclosure: D. Mevorach: Financial Interests, Personal, Royalties, Founder & CSO: Enlivex Therapeutics LTD. E. Yalon, E. Regev, C. Ankri, O. Hershkovitz, Y. Shabat, B. Reicher: Financial Interests, Personal, Full or part-time Employment: Enlivex Therapeutics LTD.

INHIBITION OF PROTEIN KINASE CK2 AND BCL-2: A NOVEL THERAPEUTIC STRATEGY TO ANTAGONIZE MANTLE CELL LYMPHOMA CELL GROWTH

Background: Mantle cell lymphoma (MCL) is a B-cell tumor which often relapses. BCR inhibitors (Ibrutinib, Acalabrutinib) and antiapoptotic BCL2-family members blockers BH3-mimetics (Venetoclax, ABT-199) are effective drugs to fight MCL. However, the disease remains incurable, due to therapy resistance, even to the promising Venetoclax and Ibrutinib combination. Therefore, there is a profound need to explore novel useful therapeutic targets. CK2 is a S/T kinase overexpressed in several solid and blood tumors. We demonstrated that CK2, operating through a 'non-oncogene addiction' mechanism promotes tumor cell survival, and counteracts apoptosis, by activating pro-survival signaling cascades, such as NF-κ B, STAT3 and AKT. CK2 could regulate also BCL2 family members. The CK2 chemical inhibitor CX-4945 (Silmitasertib, Sil) is already under scrutiny in clinical trials in relapsed multiple myeloma, solid tumors and COVID-19. Aims: In this work, we tested the effect of CK2 chemical inhibition or knock down on Venetoclax (Ven)-induced cytotoxicity in MCL pre-clinical models to effectively reduce MCL cell growth and clonal expansion. Methods: CK2 expression and BCR/BCL2 related signaling components were analyzed in MCL cells and control cells by Western blotting. CK2 and BCL2 inhibition was obtained with Sil and Ven, respectively and with CK2 gene silencing through the generation of anti-CK2 shRNA IPTG-inducible MCL cell clones. Survival, apoptosis, mitochondrial membrane depolarization and proliferation were investigated by FACS analysis of AnnexinV/PI and JC-10 staining. The synergic action of Ven and Sil was analyzed by the Chou-Talalay combination index (CI) method. CK2 knock down in vivo was obtained in xenograft NOD-SCID mouse models Results: CK2 inactivation (with Sil or CK2 silencing) determined a reduction in the activating phosphorylation of S529 p65/RelA and S473 and S129 AKT, important survival cascades for MCL. Sil or CK2 silencing caused BCL2 and related MCL1 protein reduction, causing cell death. Importantly, we confirmed these results also in an in vivo xenograft mouse model of CK2 knockdown in MCL. Sil +Ven combination increased MCL cell apoptosis, as judged by the augmented frequency of Annexin V positive cells and expression of cleaved PARP protein, and JC-10 mitochondrial membrane depolarization, with respect to the single treatments. Captivatingly, Sil or CK2 gene silencing led to a substantial reduction of the Ven-induced increase of MCL-1, potentially counteracting a deleterious Ven-induced drawback. Analysis of cell cycle distribution confirmed an increased frequency of apoptotic cells in the sub G1 phase in CK2-silenced cells and a modulation of the other phases of the cell cycle. Remarkably, the calculated CI less than 1 suggested a strong synergic cell-killing effect between Sil and Ven, on all the cell lines tested, including those less sensitive or resistant to Ven Summary/Conclusion: We demonstrated that the simultaneous inhibition/knock down of CK2 and BCL2 synergistically cooperates in inducing apoptosis and cell cycle arrest of MCL malignant B-lymphocytes and has the potential of reducing MCL clonal growth, also counterbalancing mechanism of resistance that may arise with Ven. Therefore, CK2 is a rational therapeutic target for the treatment of MCL to be tested in combination with Ibrutinib or Ven.

In-vivo reprogramming macrophages and dendritic cells with Allocetra-OTS: Successful mono- and combination-antitumor therapy

Background: Chimeric antigen receptor (CAR) T cells can activate an immune response to a cancer-specific antigen but is less effective in solid tumors. Immune check point inhibitors (ICI) revolutionized the treatment of solid tumors, however, in many tumors only partial response is achieved. Here we questioned the role of synergistic effect of Allocetra-OTS (cellular therapy for in-vivo reprogramming macrophages and dendritic cells, Enlivex Therap.) on solid tumor progression. Methods: To follow tumor growth in vivo, HeLa-CD19 cells were stably transduced with pLenti-PGK-V5-Luc-Neo. For CAR preparation, fresh mononuclear cells (MNC) were transfected with CD19-CAR plasmids. For the intraperitoneal solid tumor model, SCID-Bg mice were injected intraperitoneally (IP) with human HeLa- CD19 or HeLa-CD19-luciferase cells, 10×106 allocetra-OTS or vehicle, and 10×106 CD19-CAR T cells or mock T cells. In an immune-competent model, Balb/c mice were treated IP with AB12 (mesothelioma) with pLenti-PGK-V5-Luc-Neo and treated with anti-CTLA4 with or without Allocetra-OTS. Mice were monitored daily for clinical signs and peritoneal fluid accumulation and weekly for tumor growth. Kaplan-Meier log rank test was done for survival. Peritoneal cells were evaluated using single cell analysis and flow cytometry. Tumors were examined for bacterial presence by immunohistochemistry staining with antilipoteichoic acid (LTA) and antilipopolysaccharide (LPS). For allocetra-OTS preparation, enriched mononuclear fractions were collected by leukapheresis from healthy eligible human donors and induced to undergo early apoptosis. Results: SCID mice survived 30±5 days (range 27-37) and were sacrificed or died from solid tumor in the peritoneal cavity after accumulation of bloody peritoneal fluid and clinical deterioration. Results were verified using IVIS of intraperitoneal HeLaCD19- Luc cells. CAR T cell therapy significantly ameliorated survival to 55±11 days (p < 0.05 vs MOCK) but Alloctra-OTS further ameliorated survival to 75±10 (p < 0.001) with 20-40% complete remission. In AB12 model, anti CTLA4 therapy significantly ameliorated survival from 26±5 to 38 ±9 days (p < 0.05). However, Allocetra-OTS monotherapy ameliorated survival to 45 ±12 days (p < 0.02) and combinational therapy to 75±9 days (p < 0.0001) with complete remission in 60-75% of mice. Single cell analysis revealed that restoration of large peritoneal macrophages (LPM), were associated with antitumor activity. Conclusions: During intraperitoneal tumor progression, allocetra-OTS as monotherapy or combinational therapy with CAR or anti-CTLA4 significantly reduced tumor size and enable complete remission in up to 75% treated mice. Based on excellent safety profile in > 30 patients treated for sepsis and Covid19, human phase I/II of allocetra-OTS plus ICI, for peritoneal metastases, is planned for 2022.

Mesenchymal Stem/Stromal Cells: Late Breaking Abstract: FIRST EVIDENCE FOR THE TRANSLATIONAL POTENTIAL OF MESENCURE™, A PROFESSIONALIZED ALLOGENEIC MESENCHYMAL CELL THERAPY, FOR TREATING IMMUNOTHERAPY-RELATED CYTOKINE RELEASE SYNDROME

Background & Aim: Cytokine Release Syndrome (CRS) and Immune effector Cell-Associated Neurotoxicity Syndrome (ICANS) are related side effects of immunotherapies seen in up to 76% of patients treated with CAR-T and 48% of those treated with BiTEs. In up to 27% of the patients, these syndromes may lead to severe consequences. Current treatments for severe CRS are ineffective in >30% of the cases and can worsen ICANS prognosis, calling for novel treatments, especially in light of the expanding use of immunotherapies. Despite their obvious potential, mesenchymal cell (MSC) therapies were seldom investigated in this context. In the present study, Bonus BioGroup has set to assess the potential for treating CRS with MesenCure™, our allogeneic MSC platform, professionalized to enhance the cells’ potency and shown safe and effective in severe COVID patients. Methods, Results & Conclusion: A highly translational and validated CRS model was established in humanized NSG mice bearing human PBMCs, B-cell lymphoma, and CAR-T cells. CAR-T introduction significantly increased the serum levels of proinflammatory cytokines in model animals, indicative of CRS (Fig. 1A). Two IV MesenCure injections were well-tolerated in this model (Fig. 1B) and did not obstruct the CAR-Ts’ ability to inhibit tumor growth by 89% (Fig. 1C, p<0.0001). Remarkably, significant reductions in all proinflammatory cytokines tested (excluding IL-6) were measured in model animals treated with MesenCure, substantiating its potential to treat CRS (Fig. 1A). Interestingly, the magnitudes of these reductions resembled those observed in 50 severe COVID patients treated with MesenCure. MesenCure’s robust immunomodulatory capacity was further demonstrated in vitro by its ability to inhibit the proliferation of activated CD4 T cells with an IC50 of 6k MSC/200k PBMCs, twice more effectively than non-professionalized MSCs. Comparable results were also obtained with CD8 T cells. Similarly, MesenCure inhibited neutrophils’ ROS production by up to 80% within an hour following activation (IC50 19k MSC/200k neutrophils). These effects are likely mediated, in part, by IDO, whose RNA levels were found to be 6.8-fold higher in MesenCure cells than in non-professionalized MSCs (p<0.05), two hours after activation with IFNγ. Moreover, IDO inhibition by 1-MT (1 mM) reduced MesenCure’s (Figure Presented) Fig. 1 (A) The levels of serum proinflammatory cytokines measured in tumor-bearing NSG mice after CRS induction by injection of human PBMCs/CAR-Ts (or saline control) and MesenCure treatment (or saline control). Experimental groups’ designation: Control – not injected with PBMCs/CAR-Ts and not treated by MesenCure;CAR-T – CRS model animals, injected with PBMCs/CAR-Ts but not treated with MesenCure;MesenCure – treated with MesenCure but not injected with PBMCs/CARTs;and CAR-T + MesenCure – CRS model animals treated with MesenCure. (B) Relative change in body weight from the day of tumor induction (Day 0) and (C) IVIS analysis of tumor burden (dorsal aspect) in the above four experimental groups. Statistical significance indicators: ns – not significant, * p<0.05, *** p<0.001, **** p<0.0001. Statistical tests: Holm-Šídák’s multiple comparisons test (A) and two- sided t-test (C). ability to inhibit T cells’ proliferation by 73%. In conclusion, we provide the first evidence for the potential of MSCs and MesenCure, in particular, for treating immunotherapy-related CRS.

LONG-TERM IMMUNOGENICITY and EFFECTIVENESS of CD40-TARGETING VACCINATION in COVID-19

Background: Following natural infection or vaccination, the generation of stem cell-like memory T (Tscm) cells is essential for long-term protective immunity to the virus. Tscm cells have the capacity for self-renewal and multipotency. In SARS-CoV2 infection, the emergence of CD8+ Tscm cells is correlated with the number of symptom-free days. The development of a COVID-19 vaccine able to generate CD8+ Tscm cells is of the utmost importance since the emergence of SARS-CoV2 variants of concerns requires maintaining strong and long-lasting immune responses, 2) as an efficient alternative in immunocompromised people who have difficulties raising humoral immune responses. Methods: We have developed a new Dendritic Cell-based vaccine composed of a humanized αCD40 monoclonal antibody fused to the RBD protein in its C-terminal Fc-domains and three T cell epitopes spanning sequences from S and N proteins in its light chains (αCD40-CoV2). Previous studies have shown that this platform elicited durable and robust T-and B-cell responses and is currently in phase I clinical development in HIV. We tested the capacity of two injections of the vaccine (10υg, i.p) given with or without poly(IC) (50υg, i.p) at 3 weeks apart to i) elicit human (hu) B-, and huT-cell responses in NSG mice reconstituted with a Human Immune System (HIS mice), ii) protect against SARS-CoV2 infection in the hCD40xK18hACE2 transgenic mice. Results: We performed AIM assays and intracellular staining on spleen cells of HIS mice stimulated with overlapping peptide pools spanning the sequences of vaccine antigens. We found that both non-adjuvanted and adjuvanted vaccine efficiently induced SARS-CoV2-specific Th1 huCD4+ and huCD8+ T cells in all vaccinees compared to mock animals. SARS-CoV2-specific huCD4+ T cells were polyfunctional. We confirmed the presence of RBD-specific huCD8+ T cells in the vaccinated animals using HLA-I tetramers. A significant proportion of the multimer+ huCD8+ T cells were Tscm (CD45RA+ CD62L+ CD95+) cells in both vaccinated groups. Besides, we detected significant amounts of spike-IgG+ switched huB cells in all vaccinees. In SARS-CoV2 challenge experiments, we further showed that both vaccination settings significantly protected animals with a survival rate of 100%. Conclusion: We demonstrate that the targeting of SARS-CoV-2 epitopes to CD40 induces significant B and T cells with a long-term memory phenotype in HIS mice and the ability of the vaccine to ensure complete protection against SARS-CoV2 infection.

Efficacy and Acceptability of Remote Cognitive Behavioral Therapy for Patients With Major Depressive Disorder in Japanese Clinical Settings: A Case Series.

Remote cognitive and behavioral therapy (CBT) via videoconference has been garnering attention as a means of improving access to CBT for depression, in particular during the coronavirus disease 2019 pandemic. However, there is a lack of evidence supporting its implementation in Japanese clinical settings. This case series aimed to establish preliminary evidence of whether remote CBT can be an effective therapy for major depression in Japanese clinical settings. Five patients who met the diagnostic criteria for major depressive disorder were enrolled and underwent remote CBT via videoconference and face-to-face assessment interviews. The results showed that remote CBT via videoconference improved depressive symptoms, enabling a relatively high level of patient satisfaction and working alliance. Moreover, detailed feedback from our patients showed that continuous monitoring was preferable for increasing treatment engagement. Further research is warranted to test the efficacy and acceptability of remote CBT via videoconference for treating major depression.

Physical and visual (social) isolation increases tumor aggressiveness in thermoneutral housin temperatures in murine mammary cancer models

Correct interpretation of tumor progression data, including the influence of host biology, in mouse models of breast cancer requires models and conditions that faithfully recapitulate human disease and human host status. Our previous attempts to investigate the effects of social isolation have proven inconclusive due to premature mortality in tumor-bearing animals. Those studies were completed in standard temperature (ST), which commonly is 70-72°F (21-22°C) for in vivo murine research based on laboratory animal care and use guidelines. Previous work from the Repasky lab (Kokulus, 2013), which we have validated (Gaymon, 2020), demonstrates that ST housing results in chronic cold stress and immune suppression mediated by an increase in norepinrephrine (NE) levels, leading to increased tumor aggressiveness. Based on these findings, we investigated the effects of social isolation on BALB/cJ-4T1-luc and C57BL/6J/E0771 tumor progression and metastasis in thermoneutral housing conditions (84-85°F). Mice were first acclimatized to thermoneutral temperature and/or isolation for two weeks in cages that were unilaterally draped to provide physical and visual isolation. In BALB/cJ mice, 4T1-luc tumors were significantly larger in isolated mice compared to group-housed (GH) mice at day 18 (p<.0001). Statistically larger tumors were observed in isolated mice compared to GH mice through day 24 and final tumor masses were Salso significantly different (p=.004). Spleen masses were not statistically different. In C57BL/6J mice, E0771 tumors were significantly larger in isolates at Day 25 (p=.002). Final tumor masses were statistically (p=.002) different while no difference in spleen sizes were observed. Data on metastasis will be presented at the meeting. We hypothesized that social isolation may perturb immune function and next investigated the growth of 4T1-luc xenograft tumors in NSG mice. 4T1-luc/NSG tumor progression and metastasis data will also be presented at the meeting. We conclude that syngeneic breast tumor growth in immunocompetent BALB/cJ and C57BL/6J mice demonstrates that social isolation is a bona fide stress with sufficient influence to exacerbate breast cancer growth. These data are potentially clinically important due the known relationship of social support to survivorship outcomes in patients and the high-risk of depression and isolation in patients following breast cancer diagnosis. The data may provide additional insight into possible effects of COVID-19 isolation on breast cancer progression.

Risk factor modeled microenvironment effects lymphatics activity and IBC invasiveness and progression

Background. Lymphovascular invasion (LVI) and breast tumor emboli within dermal and breast lymphatic vessels are prognostic for metastatic spread and poor outcomes, and are abundant in Inflammatory breast cancer (IBC). IBC is an aggressive breast cancer that presents suddenly with breast swelling and redness due to tumor emboli in lymphatics. Lack of breast-feeding and obesity are IBC risk factors. We sought to demonstrate the combinatorial effects of a high-fat diet and nursing on lymphatic function and compare these to IBC tumor induced changes in lymphatic function. We hypothesize that risk factors for aggressive breast cancer may alter lymphatic function in the normal gland prior to tumor initiation. Methods. Following two rounds of pregnancy in 20 multiparous SCID Beige immunocompromised mice, half of the mice were force weaned while half nursed pups. Prior to forced weaning, half of each of these groups were fed a high fat diet (HFD: 60 Kcal %, N = 10) while the other half received a low-fat diet (LFD: 10 Kcal %, N = 10). Consecutive dynamic near-infrared fluorescence (NIRF) lymphatic imaging was performed at 6-7 months (covid interruption) and 14 months after initiating the diet by injecting a near-IR fluorophore into the mammary fatpad and recording lymphatic pulsing over 8 minutes using V++. Matlab and ImageJ were used to quantify pulsing rates on the ventral lymphatics in each animal. Fatpads were Ssubsequently inoculated with SUM149 IBC cells and imaging was repeated 16 months post diet initiation. Lymphatic imaging over time by HFD vs LFD was further studied in nulliparous animals. Tissues were collected for further analyses. ResultsData analysis prior to tumor injection, demonstrated lymphatic pulsing (pulses/4 minutes) increased over time in HFD force weaned (HFFW) and HFD nursing (HFN) animals only (65.5 vs 72.6, P=0.059;60.1 vs 76.6, P=0.0099, respectively). Comparing HFFW and HFN to matched LFD groups (LFFW and LFN), at 14 weeks HFD was associated with increased pumping after forced weaning (62.3 vs. 72.6, P=0.074), and nursing (62.5 vs 76.6, P=0.0023). There was an increase in pulsing after tumor initiation (16 months after initiation of diet) in all groups (80.1, 84.1, 83.2, 82.4, P > 0.05 all comparisons to initial timepoint). In a separate experiment examining HFD (N=5) vs LFD (N=5) in nulliparous mice, lymphatic contractile activity increased in all animals over. time, average ventral lymphatic contractile frequency for LFD and HFD at week 8, 11 and 14 weeks after diet initiation were 5, 8.64, 15.9 pumps/4 mins vs 11.8, 18.5, 28.2 pumps/4 mins, (P = 0.01, 0.05, and 0.0005 respectively). ConclusionsHFD increased lymphatic pulsing rate over time to a significantly greater extent than LFD continuing over 14 months independent of reproductive and nursing status. Tumor initiation prompted further increased pulsing rates beyond that observed after HFD across all groups. The magnitude of the effect of HFD on lymphatic pulsing approached the rate after tumor initiation, while reproductive variables did not impact lymphatic pulsing. Further studies are warranted to demonstrate the relationship if any between lymphatic pumping pre-initiation and LVI after tumor initiation and examine the role of intervention on reducing LVI.

Biopharmaceutics 4.0, Advanced Pre-Clinical Development of mRNA-Encoded Monoclonal Antibodies to Immunosuppressed Murine Models.

Administration of mRNA against SARS-CoV-2 has demonstrated sufficient efficacy, tolerability and clinical potential to disrupt the vaccination field. A multiple-arm, cohort randomized, mixed blind, placebo-controlled study was designed to investigate the in vivo expression of mRNA antibodies to immunosuppressed murine models to conduct efficacy, safety and bioavailability evaluation. Enabling 4.0 tools we reduced animal sacrifice, while interventions were designed compliant to HARRP and SPIRIT engagement: (a) Randomization, blinding; (b) pharmaceutical grade formulation, monitoring; (c) biochemical and histological analysis; and (d) theoretic, statistical analysis. Risk assessment molded the study orientations, according to the ARRIVE guidelines. The primary target of this protocol is the validation of the research hypothesis that autologous translation of Trastuzumab by in vitro transcribed mRNA-encoded antibodies to immunosuppressed animal models, is non-inferior to classical treatments. The secondary target is the comparative pharmacokinetic assessment of the novel scheme, between immunodeficient and healthy subjects. Herein, the debut clinical protocol, investigating the pharmacokinetic/pharmacodynamic impact of mRNA vaccination to immunodeficient organisms. Our design, contributes novel methodology to guide the preclinical development of RNA antibody modalities by resolving efficacy, tolerability and dose regime adjustment for special populations that are incapable of humoral defense.

Virtual Care in the Veterans Affairs Spinal Cord Injuries and Disorders System of Care During the COVID-19 National Public Health Emergency.

Telehealth reduces disparities that result from physical disabilities, difficulties with transportation, geographic barriers, and scarcity of specialists, which are commonly experienced by individuals with spinal cord injuries and disorders (SCI/D). The Department of Veterans Affairs (VA) has been an international leader in the use of virtual health. The VA's SCI/D System of Care is the nation's largest coordinated system of lifelong care for people with SCI/D and has implemented the use of telehealth to ensure that Veterans with SCI/D have convenient access to their health care, particularly during the restrictions that were imposed by the COVID-19 pandemic.