CD4 CD25 Research Articles

Double-Negative CD4 CD8 Absolute Count Plays a Mediating Role in the Causal Relationship Between Plasma Lipids and Parkinson's Disease: A Mendel Randomized Study.

According to certain research, there might be a connection between Parkinson's disease and plasma lipidome. However, the causal effects between plasma lipidome and Parkinson's disease and whether immune cells act as a mediator remain unclear. According to some research, plasma lipids are an important risk factor for Parkinson's disease, however, whether there is a causative connection between the two is unclear. In this study, Mendelian randomization (MR) was utilized to investigate the causal effect of plasma lipidomics on Parkinson's disease while conducting mediation analysis to determine whether immune cells served as mediators in this association. Plasma lipidome, immune cells, and Parkinson's disease were identified from large-scale genome-wide association studies (GWAS) summary data. We explored the causal connections between the plasma lipidome, Parkinson's disease, and the immune system using Mendelian randomization (MR). Inverse variance weighting (IVW) was used as the main statistical method. Furthermore, we investigated the potential that immune cells play a mediating role in the pathway leading from the plasma lipidome to Parkinson's disease. There were two positive and four negative causal effects between genetic liability in the plasma lipidome and Parkinson's disease. In addition, there were four positive and three negative causal relationships between immune cells and Parkinson's disease. The immune cells function as a mediator. Immune cells functioned as mediating components in the pathway from plasma lipidome to Parkinson's disease, and both plasma lipidome and immune cells were causally related to Parkinson's disease. It is expected that immune cells and plasma lipid intervention can be used as a preventive and therapeutic strategy for Parkinson's disease.

Expanded CD8+CD38+ T Cell Population in Patients With Systemic Lupus Erythematosus Is Linked to Increased Infection Rates: A Prospective Study.

One of the leading causes of morbidity and mortality among patients with systemic lupus erythematosus (SLE) is infections. The expression of the ectonucleotidase CD38 on the surface of CD8+ T cells has been linked to compromised cytotoxic function. The aim of this prospective study was to assess whether the presence of CD8+CD38+ in the peripheral blood of patients with SLE can serve as a biomarker for infectious complications. A cohort of 80 patients with SLE were recruited over 18 months. The rate of clinically significant infections and presence of CD8+CD38+ T cells in the peripheral blood were monitored at each clinic visit. The patients were classified into high CD38+ and low CD38+ CD8+ T cells using flow cytometry and a previously established cutoff rate of 28.4%. A total of 20 infections were registered over the study period. We observed that the patients with an expanded CD8+CD38+ T cell population in the peripheral blood had a higher rate of recurrent infections and a higher likelihood of infection compared with patients with a low CD8+CD38+ T cell population. The levels of CD38 in CD8+ T cells remained stable over time in the studied subjects. High levels of CD8+CD38+ T cells in the peripheral blood of patients with SLE identify a subgroup prone to infections for whom proper clinical measures should be applied.

PP4.13 – 00012 Distinct CD4 tissue-resident memory (TRM) depletion and CD8 TRM function between the small and large intestine indicate regionspecific mechanisms for gut pathology in people with HIV (PWH)

PP4.13 – 00012 Distinct CD4 tissue-resident memory (TRM) depletion and CD8 TRM function between the small and large intestine indicate regionspecific mechanisms for gut pathology in people with HIV (PWH)

Association of spleen cells with stem cell traits with the development of hematogenous metastases

BACKGROUND: Spleen status is associated with survival in carcinomas. One of the mechanisms may be related to the effects of immunosuppressive hematopoietic cells originating from the spleen. AIM: To study the composition and quantity of hematopoietic cells with stem cell traits in the spleen and their association with hematogenous metastasis in patients with different nosological forms of carcinomas. MATERIAL AND METHODS: The study included 40 patients with stomach cancer, cardioesophageal junction cancer, cancer of pancreas, splenic flexure of the colon, sigmoid colon, kidney, ovary and uterus. The subgroup with hematogenous metastases (15 patients) included 7 cases of stomach cancer, 1 case of cardioesophageal junction cancer, 4 cases of colon cancer, 1 case of pancreatic cancer, 1 case of kidney cancer, and 1 case of ovarian cancer. The subgroup without hematogenous metastases (13 patients) included 6 cases of stomach cancer, 4 cases of cardioesophageal junction cancer, 1 case of colon cancer, 1 case of pancreatic cancer, and 1 case of uterine cancer. Formalin-fixed and paraffin-embedded spleen tissue sections served as the study material. The method of multiplex tyramide signal amplification — modified immunohistochemistry of tissue sections was applied, using antibodies to CD45, CD34, CD133, TIE2, VEGFR1, CD90, CD11b. The studied parameters were described as median (Me) and interquartile range (Q1–Q3). Differences in parameters were assessed using the Mann–Whitney criterion. ROC analysis was used to assess the prognostic value of the parameters. Differences were considered significant at a significance level of p 0.05. RESULTS: The study of spleen tissue with simultaneous determination of several markers on each cell allowed us to identify 20 phenotypes related to representatives of the continuum of hematopoietic stem cells and the continuum of stem cells with hematopoietic/angiogenic potentials, characterized by pronounced phenotypic diversity. In the general group, including all the studied nosological forms, the number of stem cells with the CD45–CD34+CD133–TIE2–VEGFR1– phenotype found in the lymphoid follicles of the spleen was lower in cases with hematogenous metastases: 43.313 (0.00–85.393) and 110.034 (83.050–197.915) (p=0.03), respectively. In the group of gastric cancer patients with hematogenous metastases, a lower number of stem cells with the CD45–CD34+CD133–TIE2–VEGFR1– phenotype [31.092 (0.000–37.987)] compared to the group without hematogenous metastases [119.962 (103.486–258.533)] (p=0.001), a higher number of stem progenitor cells with the CD45+CD34–CD133+TIE2–VEGFR1– phenotype determined in the lymphoid follicle [7901.164 (5705.314–8563.807) versus 4670.894 (3328.607–6473.649)] (p=0.035), as well as a higher number of cells with phenotype CD45+CD34–CD133+TIE2+VEGFR1+, identified in the red pulp of the spleen [131.396 (35.701–167.521) versus 21.524 (6.123–30.117)] (p=0.02), were found. CONCLUSION: The number of spleen cells with the phenotypes CD45–CD34+CD133–TIE2–VEGFR1–, CD45+CD34–CD133+TIE2–VEGFR1– and CD45+CD34–CD133+TIE2+VEGFR1+ is associated with hematogenous metastasis.

EXTH-12. POTENTIATING THE EFFICACY OF IMMUNE CHECK-POINT INHIBITORS IN GLIOBLASTOMA BY INHIBITION OF CXCL12

Abstract BACKGROUND The tumor immune microenvironment (TIME) in glioblastoma (GBM) is rich in CXCL12, a chemokine known for stimulating angiogenesis. CXCL12 also controls immune cell trafficking and promotes polarization to an immunosuppressive phenotype. We postulated that inhibiting CXCL12 will modulate the immunosuppressive TIME in GBM, thereby augmenting the efficacy of immunotherapy agents like immune checkpoint inhibitors (ICIs). We examined the immunomodulatory and therapeutic efficacy of CXCL12 inhibition, using a small molecule NOX-A12, with and without ICIs in pre-clinical murine GBM models. METHODS B6 immunocompetent mice bearing intracranial (i.c.) or subcutaneous (s.c.) SB28 tumors received either vehicle, NOX-A12, anti-PD1 and anti-CTLA4 (dual ICI) or NOX-A12 + dual ICI (combination). Tumor growth was measured by IVIS imaging and immune cells in brain were analyzed using high dimensional flow cytometry. Survival was analyzed using Kaplan-Meier curves and log rank test. RESULTS Combination treatment resulted in tumor regression and long-term survival in 40% of s.c. tumor bearing mice compared to 10% treated with dual ICI only. Three of 4 mice rechallenged with contralateral s.c. tumor remained tumor free while all naive mice reached endpoint. TIME from treated s.c. tumors revealed increase in CD4 and effector memory CD8 T cells by combination treatment compared to dual ICI. In i.c. GBM tumors, while no survival benefit or growth inhibition was seen, combination treatment induced an early increase in effector memory CD8 T cells and PD-L1+ B cells, and a later increase in MHC-II+ microglia compared to dual ICI. CONCLUSION Inhibition of CXCL12 enabled the increase of effector cytotoxic T cells by ICI, improving survival in the s.c. GBM model, but not in i.c. GBM model. This might be due to differences in CXCL12 effect between extra and intra-CNS tumor or due to robust immune response causing excessive brain edema and death. These will be further explored in ongoing and future studies.

Hyper-Interferon Sensitive Influenza Induces Adaptive Immune Responses and Overcomes Resistance to Anti-PD-1 in Murine Non-Small Cell Lung Cancer.

Despite recent advances in immunotherapy with immune checkpoint inhibitors, many patients with non-small cell lung cancer (NSCLC) fail to respond or develop resistance after an initial response. In situ vaccination (ISV) with engineered viruses has emerged as a promising antigen-agnostic strategy that can both condition the tumor microenvironment and augment antitumor T-cell responses to overcome immune resistance. We engineered a live attenuated viral vaccine, hyper-IFN-sensitive (HIS) virus, by conducting a genome-wide functional screening and introducing eight IFN-sensitive mutations in the influenza genome to enhance host IFN response. Compared with wild-type influenza, HIS replication was attenuated in immunocompetent hosts, enhancing its potential as a safe option for cancer therapy. HIS ISV elicited robust yet transient type I IFN responses in murine NSCLCs, leading to an enrichment of polyfunctional effector Th1 CD4+ T cells and cytotoxic CD8+ T cells into the tumor. HIS ISV demonstrated enhanced antitumor efficacy compared with wild-type in multiple syngeneic murine models of NSCLC with distinct driver mutations and varying mutational burden. This efficacy was dependent on host type 1 IFN responses and T lymphocytes. HIS ISV overcame resistance to anti-PD-1 in LKB1-deficient murine NSCLC, resulting in improved overall survival and systemic tumor-specific immunity. These studies provide compelling evidence to support further clinical evaluation of HIS as an "off-the-shelf" ISV strategy for patients with NSCLC refractory to immune checkpoint inhibitors.

Double negative T cells promote surgery-induced neuroinflammation, microglial engulfment and cognitive dysfunction via the IL-17/CEBPβ/C3 pathway in adult mice

CD3(+) CD4(−) CD8(−) double negative T cells (DNTs) manifest themselves in autoimmune diseases and associated inflammation. In the central nervous system, the increased presence of DNTs is associated with the progression of neurological conditions and brain injury. Active DNTs that produce IL-17 have been regarded as a pro-inflammatory phenotype. The IL-17 signaling pathway mediates neuroinflammatory responses by inducing glial activation and producing inflammatory factors. Neuroinflammation is considered integral to the pathogenesis of perioperative neurocognitive disorders (PNDs), commonly developed after surgery in susceptible patients. We and others have demonstrated a significant role for complement C3 in surgery-induced neuroinflammation and cognitive impairment but the regulatory mechanisms for this remain unexplored. We hypothesized that surgery induces DNT infiltration into the CNS that in turn upregulates complement C3 expression and this causes changes that contribute to cognitive impairment. Using an adult murine abdominal surgery model, we investigated perioperative changes in cognitive performance, quantifying the presence of T cell subsets and phenotype, IL-17 signaling pathway activation, glial cell activation and C3 expression in the brain. Postoperative IL-17 specific inhibitor GSK2981278 administration or preoperatively conditional CEBPβ knock-down by AAV9 viral vector were then applied to evaluate the effect of inhibiting IL-17 signaling pathway on postoperative C3 expression and cognitive performance. The results showed an increased hippocampus infiltration of DNTs with augmented IL-17 production, along with C3 upregulation and cognitive impairment. Both inhibition of IL-17 or knock-down of CEBPβ significantly suppressed C3 expression, synaptic engulfment by microglia and attenuated cognitive impairment. These findings indicate that DNTs promote postoperative neuroinflammation and cognitive impairment via the IL-17/CEBPβ/C3 pathway and targeting this IL-17 axis could be a potential therapeutic strategy to ameliorate postoperative neuroinflammation and cognitive impairment.

Effect of interleukin 1b inhibition with canakinumab on inflammation and viral persistence in people with human immunodeficiency virus

Abstract Introduction Effectively treated people with HIV (PWH) have elevated risk of cardiovascular disease (CVD). Inflammatory markers are predictive of CVD and mortality among PWH. The role of the myeloid system in driving inflammation and atherosclerosis has been recently recognized. Canakinumab (a monoclonal antibody to IL-1β) reduces inflammation and CVD events among people with elevated hsCRP after myocardial infarction without HIV. We evaluated the impact of IL-1β inhibition using canakinumab on HIV parameters, inflammation, HIV persistence markers, arterial inflammation, and hematopoietic activity in PWH. Methods PWH on effective ART who had CVD or were at risk for CVD were randomized 2:1 to receive 150 mg of canakinumab subcutaneously or matched placebo at weeks 0 and 12. Arterial inflammation and bone marrow metabolic activity were assessed using F18 FDG PET/CT at baseline and week 18. T cell and monocyte activation were evaluated using multiparameter spectral cytometry. The viral reservoir was quantified using Tat/rev Induced Limiting Dilution Assay (TILDA), HIV DNA and cell-associated RNA. The primary endpoints were change in CD4 and CD8 count. We assessed group effects over time using linear mixed effects models. Results 33 individuals were randomized (median age of 60 years old (IQR 57.5, 64.5) and 94% male); 25 received canakinumab and 8 received placebo. There were no significant differences at baseline. As expected, IL-1β increased among those treated with canakinumab at weeks 4- 24 (p<0.01 for each) and returned to baseline at week 36. There was one death from sepsis in an individual aged 84 with CVD and poorly controlled diabetes who received canakinumab. There were no significant changes in CD4 count, CD8 count, platelet count, creatinine, AST, or ALT by group. Treatment was not associated with a greater reduction in arterial inflammation in the most diseased segment compared to placebo (-6.9%; 95% CI -30.4 to 24.5%; p=0.62). However, bone marrow metabolic activity decreased in the canakinumab group versus placebo (-14.4%, 95% CI -26.5% to -0.2%; p=0.047). Treatment was associated with increased CD163 expression on monocytes at weeks 24 (p=0.03) and 36 (p<0.001), and lower caspase activity at week 36 (p=0.02). There was expansion of anti-inflammatory CD16+ patrolling monocytes that co-express CD163+CX3CR1+ and a decrease in pro-inflammatory CD16+ patrolling monocytes that are Caspase1+CCR2+. Treatment was not associated with differences in hsCRP, IL-6, IL-16, IL-18, MCP-1, sCD14, sCD163, T cell subsets, NK cell subsets, or viral persistence markers. Conclusion Among treated PWH, targeted inhibition of IL-1β using canakinumab results in decreased bone marrow metabolic activity and a shift toward anti-inflammatory monocyte populations. These findings shed light on mechanisms underlying how targeted IL-1β inhibition using canakinumab prevents CVD events by altering monocyte populations and reducing systemic inflammation.

Subpopulations of monocytes and natural killer cells of human peripheral blood in the long-term period of chronic irradiation

Introduction. An increased risk of malignancy and cardiovascular diseases is revealed in exposed individuals from different cohorts. Monocyte and natural killer (NK) cells modulate inflammation and carcinogenesis.Objective. To evaluate absolute and relative cell counts in monocyte and natural killer cell subpopulations in the peripheral blood of individuals exposed to chronic irradiation.Materials and methods. Thirty-five persons from the Techa River cohort were examined, divided into three subgroups depending on the radiation absorbed dose calculated to the red bone marrow (RBM) (70–249 mGy; 250–699 mGy; 700–1429 mGy, respectively). The mean age of patients was 74.9 years; the mean value of the radiation absorbed dose to RBM was 542.0±65.3 mGy, while that of the radiation absorbed dose to thymus and peripheral lymphoid organs was 99.7±14.4 mGy. The comparison group consisted of 10 persons without a history of anthropogenic irradiation of similar gender and ethnicity, mean age — 71.8 years.Results. In the second dose subgroup, the proportion of CD14–CD16+ monocytes was statistically significantly higher (8.47%) than in the comparison group (5.52%, p=0.014), and the absolute CD14–CD16+ monocytes count (0.040×109/l) was also higher than in the third subgroup (0.018×109/l, p=0.044) without correlations with radiation and non-radiation factors. No statistically significant differences of other studied parameters between the groups were revealed.Conclusion. In persons from the second subgroup the relative number of CD14–CD16+ monocytes was statistically significantly higher than in the comparison group; the absolute CD14–CD16+ monocytes count was also higher than in the third subgroup without correlations with factors of a radiation and non-radiation nature. The findings are preliminary.

Exploring genetic and immune cell dynamics in systemic lupus erythematosus patients with Epstein-Barr virus infection via machine learning.

Epstein-Barr Virus (EBV) is a widespread virus implicated in various diseases, including Systemic Lupus Erythematosus (SLE). However, the specific genes and pathways altered in SLE patients with EBV infection remain unclear. We aimed to identify key genes and immune cells in SLE patients with EBV infection. The datasets of SLE (GSE50772 and GSE81622) or EBV infection (GSE85599 and GSE45918) were obtained from the Gene Expression Omnibus (GEO) database. Next, differential gene expression (DEGs) analysis were conducted to identify overlapping DEGs and then enrichment analysis was performed. Machine learning was applied to identify key genes. Validation was conducted using ROC curve analysis and expression level verification in test datasets and single-cell RNA sequencing. Immune cell infiltration patterns were analyzed using CIBERSORTx, and clinical data were reviewed for SLE patients. We identified 58 overlapping DEGs enriched in interferon-related pathways. Five overlapping DEGs (IFI27, TXK, RAPGEF6, PIK3IP1, PSENEN) were selected as key genes by machine learning algorithms, with IFI27 showing the highest diagnostic performance. The expression level of IFI27 was found higher in CD4 CTL, CD8 naïve and various B cell subsets of SLE patients with EBV infection. IFI27 showed significant correlation with B intermediate and CD4 CT. Clinical data showed lower CD4 T cell proportions in SLE patients with EBV infection. This study identifies IFI27 as a key gene for SLE patients with EBV infection, influencing CD4 CTL and B cell subtypes. These findings enhance the understanding of the molecular mechanisms linking SLE and EBV infection, providing potential targets for diagnostic and therapeutic strategies.

Impact of high-order repeat cesarean deliveries on early maternal complications among major placenta previa patients in Southern Saudi Arabia.

To investigate the rates and odds ratios (ORs) of early maternal complications among patients with major placenta previa (PP) who have undergone high-order repeat cesarean deliveries (HOR-CDs) in comparison to those with low-order repeat cesarean deliveries (LOR-CDs). We carried out a retrospective review of all major PP patients (n=184) who delivered through second or subsequent repeat CDs, from January 2012 to December 2021 (Abha Maternity and Children's Hospital, Abha, Saudi Arabia). The patients were categorized into 2 groups: the LOR-CDs group (n=100), comprising individuals with their second and third CDs (CD2-CD3) and the HOR-CDs group (n=84), consisting of those undergoing their fourth to seventh CDs (CD4-CD7). In comparison to the LOR-CDs, the HOR-CDs group with major PP exhibited significantly higher rates and ORs of early maternal complications, including MRI-diagnosed placenta accreta spectrum (PAS, OR=2.67), transfusions of packed red blood cells (OR=2.71), moderate to severe intra-operative bleeding (OR=1.80), emergency hysterectomy (OR=2.96), urological injuries (OR=3.17), and length of post-operative hospital stay (OR=3.91). The major PP subgroup undergoing CD6-CD7 showed the highest rates and ORs for PAS diagnosis at 84.6% (OR=3.98) and emergency hysterectomy at 28.6% (OR=4.04). Among patients with major PP, undergoing more than 3 CDs is associated with a notable increase in both the rates and ORs of various early maternal complications. This trend of increasing many complications correlates directly with an ascending number of CDs.

Thymic microenvironment's impact on immunosenescence.

Age-related thymic involution is characterized by the loss of T cell development and the supporting epithelial network, which are replaced by adipose tissue. We previously showed that aging functionally impairs lymphohematopoietic progenitor cells, including thymic early T cell progenitors (ETPs), contributing to thymic involution. Considering that the thymic microenvironment is essential for thymocyte incubation, we aimed to investigate its role in age-related thymic involution and the mechanisms underlying these changes. The challenge in studying these processes led us to transplant T cell-depleted fetal thymus tissue into the kidney capsule of aged mice. This model allowed us to identify the mechanisms driving age-related changes in the thymic microenvironment and to assess whether these changes could be reversed. Flow cytometry was used to detect naïve T cells (CD62L+CD44-), including CD4 CD8 double-negative, double-positive, and single-positive T cells. Real-time PCR was used to detect and quantify signal-joint T cell receptor excision circles. We rearranged δRec-ΨJα in murine peripheral blood leukocytes to evaluate the thymic output of newly developed naïve T cells in the mice and gene expression in the thymus. Age-related thymic involution decreased naïve T cells and increased memory T cells, while fetal thymus transplantation improved thymic output and T cell production and reversed the impairment of thymopoiesis due to thymic involution in aged mice. Furthermore, the expression of key cytokines was restored and ETPs in the aged mice showed normal thymic T cell development. Our study suggests that degenerative changes in the thymic microenvironment are the primary cause of thymic dysfunction, leading to immunosenescence associated with age-related thymic involution.

Evaluation of TREC/KREC levels in HIV-infected individuals

The aim of this study was to evaluate TREC and KREC levels in HIV-infected individuals.Materials and methods. The study material was whole blood samples obtained from HIV-infected individuals with less than one year of infection (n=50) and long-term patients with high viral load and virological failure of ART (n=50). The obtained data were analyzed in comparison with the norm values established earlier for adults of different age groups. Multicolour flow cytometry was used to phenotype peripheral blood cells of HIV-infected individuals. To assess the levels of TREC and KREC molecules with all total DNA samples, quantitative multiplex Real-time PCR was performed using the reagent kit«TREC/KREC-AMP PS» (Saint-Petersburg Pasteur Institute, St. Petersburg), according to the manufacturer’s instructions. Results and discussion. A reliable direct correlation TREC levels in peripheral blood with the number of CD45+CD3+CD19– T-cells (r=0.77, p<0.0001), KREC levels with the number of CD45+CD3–CD19+ B-cells (r=0.79, p<0.0001) was determined. A significant decrease in the levels of TREC and KREC molecules in HIV-infected individuals with high viral load and virological failure of antiretroviral therapy was shown (AUC=0.99, Se=0.99, Sp=0.99 for TREC and for KREC).Conclusion. Assessment TREC and KREC molecule levels in peripheral blood can be used to detect abnormalities in the functioning Tand B-cell immunity to monitor the ART effectiveness in HIV-infected individuals.

Spatial colocalization and combined survival benefit of natural killer and CD8 T cells despite profound MHC class I loss in non-small cell lung cancer

BackgroundMajor histocompatibility complex class I (MHC-I) loss is frequent in non-small cell lung cancer (NSCLC) rendering tumor cells resistant to T cell lysis. NK cells kill MHC-I-deficient tumor cells, and...

Heterogeneity in immune cell composition is associated with Mycobacterium tuberculosis replication at the granuloma level.

The control of bacterial growth is key to the prevention and treatment of tuberculosis (TB). Granulomas represent independent foci of the host immune response that present heterogeneous capacity for control of bacterial growth. At the whole tissue level, B cells and CD4 or CD8 T cells have an established role in immune protection against TB. Immune cells interact within each granuloma response, but the impact of granuloma immune composition on bacterial replication remains unknown. Here we investigate the associations between immune cell composition, including B cell, CD4, and CD8 T cells, and the state of replicating Mycobacterium tuberculosis (Mtb) within the granuloma. A measure of ribosomal RNA synthesis, the RS ratio®, represents a proxy measure of Mtb replication at the whole tissue level. We adapted the RS ratio through use of in situ hybridization, to identify replicating and non-replicating Mtb within each designated granuloma. We applied a regression model to characterize the associations between immune cell populations and the state of Mtb replication within each respective granuloma. In the evaluation of nearly 200 granulomas, we identified heterogeneity in both immune cell composition and proportion of replicating bacteria. We found clear evidence of directional associations between immune cell composition and replicating Mtb. Controlling for vaccination status and endpoint post-infection, granulomas with lower CD4 or higher CD8 cell counts are associated with a higher percent of replicating Mtb. Conversely, changes in B cell proportions were associated with little change in Mtb replication. This study establishes heterogeneity across granulomas, demonstrating that certain immune cell types are differentially associated with control of Mtb replication. These data suggest that evaluation at the granuloma level may be imperative to identifying correlates of immune protection.

Features of T-cell and humoral immunity of patients with acute coronary syndrome, with and without COVID-19, depending on/peripheral blood B-lymphocytes with the phenotype CD3–CD19+CD5+ level

The aim of the work was to assess the T-cell and humoral immune arms in patients with acute coronary syndrome (ACS) recovered from or not exposed to COVID-19. 86 men with ACS aged 40 to 65 years old, who suffered or not exposed to COVID-19, which required stenting of coronary arteries, were examined. Depending on the peripheral blood B-lymphocyte CD3–CD19+CD5+ level and the former COVID-19 history, all patients were divided into 6 groups. Of the previously COVID-19 exposed subjects CD3–CD19+CD5+ lymphocytes were at: reduced (group 1), normal (group 2), increased (group 3) level. COVID-19 unexposed subjects had CD3–CD19+CD5+ lymphocyte level: reduced (group 4), normal (group 5), increased (group 6). The most severe clinical manifestations were observed in group 1: with a larger rate of stent thrombosis and increased mortality. In absolute numbers, T-lymphocytes were significantly lower in group 1 compared to other groups, except group 4. The lowest both relative and absolute T-helper cell counts were recorded in covid-19 patients, with reduced CD3–CD19+CD5+ cell level. NK-lymphocytes both in relative and absolute level were significantly (p 0.05) higher in patients who suffered from COVID-19 as compared to those in patients unexposed to previous COVID-19. Percentage of late-activation T-regulatory cells was minimal in patients with former COVID-19 along with high B-lymphocyte CD3–CD19+CD5+ level, which significantly (p 0.05) differed from those in subjects lacking former COVID-19 history. In addition, significantly lower B-lymphocyte CD3–CD19+CD5– level was found in group 1 and 4. The IgM level peaked in group 5 — subjects lacking former COVID-19 history and having normal CD3–CD19+CD5+ cell level that significantly differed in comparison with that of in group 1, 2, 3. At the same time, the maximum value of IgG level was recorded in COVID-19 patients with normal CD3–CD19+CD5+ cells, and significantly differed from those found in group 5 and 6. C1-inhibitor level was higher in group 3 that significantly differed from that in other groups. SARS-CoV-2-specific IgG and IgM levels were significantly higher in COVID-19-positive vs. COVID-19-negative patients. Conclusion. In patients who have suffered COVID-19 with low B-lymphocyte CD3–CD19+CD5+ level, a significantly compromised immune protection was noted in comparison with other groups: a decline in total T-lymphocyte, T-helper, early- and late-activation T-lymphocyte, T-regulatory cell, B-lymphocyte CD3–CD19+CD5– levels, which was associated with a more severe disease course characterized by stent thrombosis and large mortality.

Development and validation of a prognostic immunoinflammatory index for patients with gastric cancer

BACKGROUND Studies have demonstrated the influence of immunity and inflammation on the development of tumors. Although single biomarkers of immunity and inflammation have been shown to be clinically predictive, the use of biomarkers integrating both to predict prognosis in patients with gastric cancer remains to be investigated. AIM To investigate the prognostic and clinical significance of inflammatory biomarkers and lymphocytes in patients undergoing surgical treatment for gastric cancer. METHODS Univariate COX regression analysis was performed to identify potential prognostic factors for patients with gastric cancer undergoing surgical treatment. Least absolute shrinkage and selection operator-COX (LASSO-COX) regression analysis was performed to integrate these factors and formulate a new prognostic immunoinflammatory index (PII). The correlation between PII and clinical characteristics was statistically analyzed. Nomograms incorporating the PII score were devised and validated based on the time-dependent area under the curve and decision curve analysis. RESULTS Patients exhibiting elevated neutrophil-to-lymphocyte ratio, platelet-to-lymphocyte ratio, and systemic immune inflammatory index displayed inferior progression-free survival (PFS) and overall survival (OS). Conversely, low levels of CD3(+), CD3(+) CD8(+), CD4(+)CD8(+), and CD3(+)CD16(+)CD56(+) T lymphocytes were associated with improved PFS and OS, while high CD19(+) T lymphocyte levels were linked to worse PFS and OS. The PII score demonstrated associations with tumor characteristics (primary tumor site and tumor size), establishing itself as an independent prognostic factor for both PFS and OS. Time-dependent area under the curve and decision curve analysis affirmed the effectiveness of the PII-based nomogram as a robust prognostic predictive model. CONCLUSION PII may be a reliable predictor of prognosis in patients with gastric cancer undergoing surgical treatment, and it offers insights into cancer-related immune-inflammatory responses, with potential significance in clinical practice.

Sex differences in donor T cell targeting of host splenocyte subpopulations in acute and chronic murine graft-vs.-host disease: implications for lupus-like autoimmunity.

This study sought to compare in vivo sex differences in either a Th1-dominant CTL response or a Tfh-mediated lupus-like antibody response using the parent-into F1 murine model of acute or chronic GVHD respectively. In acute GVHD we observed no significant sex differences in the hierarchy of donor CD8 CTL elimination of splenocyte subsets. B cells were the most sensitive to elimination in both sexes; however, the male response was significantly stronger. Sex differences in chronic GVHD were more widespread; females exhibited significantly greater numbers of total splenocytes and host CD4 Tfh cells, B cells and CD8 T cells consistent with reports of greater female autoantibody production in this model. The more potent male CTL response in acute GVHD conflicts with reports of greater female CTL responses following infections or vaccines and may reflect the absence of exogenous innate immune stimuli in this model.

The Effect of Exosomes Isolated from Poly (I:C) Treated Human Wharton's Jelly Mesenchymal Stem Cells on CD4+CD25+Foxp3+ Regulatory T Cells.

Mesenchymal stem cells (MSCs) are a potential cell therapy candidate for autoimmune and inflammatory diseases due to their multilineage capacity and immune modulating function. MSCs exert immunomodulatory effects on target cells through the secretion of exosomes. Inflammatory conditions such as Toll-like receptors (TLRs) engagement can change the biological functions and immunomodulatory activities of MSCs and the contents of exosomes derived from MSCs are changed. Regulatory T-cells (Treg) are crucial for maintaining immune cell homeostasis and self-tolerance. Our study aimed to investigate the impact of isolated exosomes from hWJ-MSCs that were treated with Poly (I:C) on regulatory CD4 CD25 Foxp3 T-cells. MSCs were harvested from human umbilical cord Wharton's Jelly by explant method. Stem cells were treated by Polyinosinic-polycytidylic acid sodium salt (Poly (I:C)) for 48 hours. Exosomes were extracted from supernatant of cells and Scanning electron microscopy (SEM) and Dynamic light scattering (DLS) were performed for them. Peripheral blood mononuclear cells (PBMCs) isolated from the healthy donors were stimulated with PHA (Phytohemagglutinin) and co-cultured with Poly (I:C) treated hWJ-MSCs derived exosome and untreated hWJ-MSCs derived exosome or without hWJ-MSCs-derived exosome for 6 days. Then, frequency of CD4+CD25+ Foxp3+ regulatory T cells was measured by flow cytometry. Our results showed that exosomes isolated from Poly (I:C) treated hWJ-MSCs significantly increased frequency of CD4+CD25+ Foxp3+ regulatory T cells compared to the untreated hWJ-MSCs derived exosome group and control group. Stimulation by TLR3 improved the anti-inflammatory features of exosomes that were derived from hWJ-MSCs by increasing the frequency of Treg cells.

Exploration of different immunogenomic TMEs in gastric cancer based on HER2 and PD-L1 expression.

e16073 Background: Recent results from the KEYNOTE-811 study showed that first-line pembrolizumab was superior to placebo with respect to progression-free survival (PFS) in combination with trastuzumab and chemotherapy in patients with HER2 positive metastatic gastric cancer (GC). Interestingly, In the subgroup analysis, the PFS benefit with pembrolizumab was significant in patients with tumors with PD-L1 CPS ≥1, whereas there was no benefit in the small subgroup of patients with tumors with CPS < 1. Therefore, this study is to investigate immune-genomic differences in the tumor microenvironment according to the composition of surrounding cells and the expression status of HER2 and PD-L1. Methods: Utilizing single cell RNA sequencing (scRNA seq) and TCR sequencing, we examined 14 HER2 positive and 18 negative primary GC samples with CPS score based on PD-L1 IHC 22C3 pharmDx. Among the HER2-positive group, there were 4 samples in the CPS < 1 (negative) and 10 samples in the CPS ≥1 (positive) group. In the HER2 negative group, there were 6 samples in the CPS < 1 and 12 samples in the CPS ≥1. Results: First, when analyzing the distribution of total cells according to HER2 status, in the HER2 positive group, more endothelial cells ( p= 0.034) and fibroblasts ( p= 0.054) appeared in the PD-L1 negative group compared to the PD-L1 positive group, while there was no difference in the HER2 negative group. Furthermore, Through TCR analysis, the exhausted and cytotoxic score exhibit contrasting trends between HER2 negative and positive groups. In HER2-positive patients, the exhausted and cytotoxic score appear significantly higher in the CPS negative group. Next, we evaluated the proportion of immune cells according to HER2 status. The observed of CD4 Treg ( p= 0.084) and CD8 exhausted T (Tex), ( p= 0.036) cells was increased in the HER2 positive compared to the negative. When regrouped according to PD-L1 expression, only the HER2 positive group showed a tendency to increase the observation of CD4 Treg and CD8 Tex cells compared to positive in PD-L1 negative. In addition, we investigated whether the expression pattern of other immune checkpoint molecules differed depending on the PD-L1 expression pattern in both HER2 positive and negative patients. In the HER2 negative group, the expression of immune checkpoint proteins was similar regardless of the CPS expression group, or the expression of some proteins was higher in the CPS positive group. In other hands, in HER2 positive, CPS < 1 group had higher expression of immune checkpoint proteins, such as PDCD1, LAG2, BTLA, VISTA and TIGHT. Conclusions: The high proportion of CD4 Tregs, CD8 Tex and the elevated exhausted score in the subgroup with CPS < 1 in HER2 positive GCs suggesting immune exclusive environment compared to her-2 and PD-L1 coexpressing group. Considering increased expression of immune checkpoint proteins other than PD-1/PD-L1, for patients with HER2-positive and CPS < 1, combination therapy with other immune checkpoint inhibitors rather than anti-PD-1/PD-L1 may be suggested.