Levels Of CD44 Research Articles

Malondialdehyde-specific natural IgM inhibit toll-like receptor 4 and peptidyl-arginine deiminase 4-dependent NETosis triggered by coronary extracellular vesicles of myocardial infarction patients

Abstract Background Neutrophil extracellular traps (NETs) are critical mediators of thromboinflammation during acute myocardial infarction (AMI). However, triggers and signalling pathways of NETosis in AMI remain incompletely understood. Levels of extracellular vesicles (EV) carrying oxidation-specific epitopes (OSE) originating from lipid peroxidation are increased at the culprit site in AMI. Importantly, natural IgM antibodies with specificity for OSE, such as malondialdehyde (MDA), have been shown to modulate functional effects of EV, and are associated with reduced cardiovascular risk. Purpose We investigated the stimulatory capacity of EV on neutrophil effector functions and specifically targeted key mediators of NET formation using pharmacological inhibitors and atheroprotective natural IgM to inhibit this process. Methods Patients were included after diagnosis of ST-segment elevation myocardial infarction and blood was aspirated from the culprit site and peripheral arterial site (n=28) during primary percutaneous coronary intervention (pPCI). Myocardial function was documented by cardiac magnetic resonance imaging 4±2 days and 195±15 days after pPCI. EV were isolated from cell culture supernatants and culprit site plasma for neutrophil stimulation in vitro. Pharmacological inhibitors were used to map NET signalling pathways of EV. Isolated EV were used for neutrophil stimulation in a murine injection model in the presence of the MDA-specific IgM LR04 or an isotype control. NET formation and other neutrophil functions were assessed by flow cytometry, ELISA and fluorescence microscopy. Results Levels of NET surrogate markers and CD45+ MDA+ EV were higher at the culprit site than in the peripheral circulation. EV generated by LPS-activated THP-1 monocytic cells induced in vitro NET formation, release of neutrophil elastase and IL-8, and degranulation of MPO and NGAL in primary human neutrophils, but not reactive oxygen species. Toll-like receptor 4 (TLR4) and peptidyl-arginine deiminase 4 (PAD4) were identified as key mediators of NET formation induced by in vitro-generated EV and EV isolated from the culprit site of AMI patients. Functionally, the MDA-specific monoclonal IgM antibody LR04, but not an isotype control, inhibited the ability of patient-derived and in vitro-generated EV to trigger release of NETs in primary human neutrophils and in mice. Titres of MDA-specific IgM antibodies were inversely associated with the NET marker citH3 in blood of AMI patients. Finally, we found that the concentration of CD45+ MDA+ EV per protective MDA-specific IgM at the culprit site showed an inverse association with left ventricular ejection fraction 72 hours and 6 months after AMI. Conclusions We show that EV can trigger several neutrophil effector functions. EV-induced NET formation is TLR4- and PAD4-dependent and can be inhibited by OSE-specific natural IgM potentially influencing cardiovascular outcomes after an acute event.

Combined administration of atorvastatin and mesenchymal stem cells synergizes to attenuate inflammation and promote efferocytosis in atherosclerotic mice

Abstract Background Atherosclerosis (AS), characterized by chronic systemic and lesional inflammation, is by far the most frequent underlying cause of cardio-cerebrovascular diseases. Recently, impaired efferocytosis, referring to defective removal of dead cells, was identified as another essential factor contributing to the development of AS, which is partly attributed to upregulation of CD47 and explain the benefits of atorvastatin (ATV). Mesenchymal stem cells (MSCs) were reported to protect against AS by inhibiting inflammation; while whether ATV and MSCs could synergize to attenuate inflammation and promote efferocytosis and consequently, reduce AS burden, remains unclear. Methods To establish the AS model, 6-week-old male ApoE-/- mice fed with Western diet for 12 weeks were used and grouped randomly (n=15 per group). The scheme of administration of ATV and human umbilical cord MSCs was shown in Figure 1A. After 6-week treatment, mice were sacrificed, and hearts and aortas were harvested. Oil Red O staining was used to evaluate the lesional burden. Immunofluorescence staining was used to assess the inflammation and efferocytosis in the plaque. A high level of CD11b+ cells (macrophages) infiltration was considered an indicator of inflammation; a high level of cleaved caspase 3 puncta unmerged with macrophages (Mac3+ area) was considered an indicator of impaired efferocytosis. Results Human umbilical cord MSCs were identified as CD73+CD90+CD105+CD45-CD14- cells. Evoked inflammation and defective clearance of apoptotic cells in the plaque were observed (Figure 1B, C). ATV and MSC treatment inhibited macrophage infiltration and activated efferocytosis. Given the mechanistic idea that upregulated CD47 blocks the Signal regulatory protein α (SIRPα) / src homology-2 (SH2)-domain-containing protein tyrosine phosphatases (SHP) signal and leads to efferocytosis impairment, we evaluated the expression levels of CD47 in plaque and phosphorylated SHP (p-SHP) in lesional macrophages (Figure 2A, B). The elevation of CD47 expression and consequent downregulation of p-SHP was reversed by both ATV and MSCs, with a lower lesion burden observed in NS+MSC, ATV+PBS and ATV+MSC groups. All benefits were more pronounced in the group received combined treatment (ATV+MSC). Conclusions The results indicated ATV and MSC administration could synergizes to attenuate inflammation and promote efferocytosis in AS plaque, and the combined treatment led to the lowest lesion burden. CD47/p-SHP signal plays an essential role in the activation of efferocytosis. The mechanisms underlying the inhibition of CD47 are currently under investigation.

Receptor for Hyaluronan Mediated Motility (RHAMM)/Hyaluronan Axis in Breast Cancer Chemoresistance

Background/Objectives: Receptor for hyaluronan-mediated motility (RHAMM) is a hyaluronan (HA) receptor, which exerts diverse biological functions in not only physiological but also pathological conditions in human malignancies, including breast cancer. Although chemoresistance is a significant clinical challenge in breast cancer, a possible contribution of RHAMM and hyaluronan to breast cancer chemoresistance has remained unclear. Methods: We immunolocalized RHAMM and HA in breast carcinoma tissues. Also, we utilized epirubicin-sensitive (parental) and rpirubicin-resistant (EPIR) breast cancer cell lines to explore the role of RHAMMM in breast cancer progression. Results: We found out that RHAMM and HA were cooperatively correlated with breast cancer aggressiveness and recurrence after chemotherapy. In vitro studies demonstrated that RHAMM was overexpressed in EPIR cells compared to parental cells. In addition, the knockdown of RHAMM significantly suppressed proliferation and migration of both parental and EPIR cells. On the other hand, the expression level of cancer stem cell marker CD44, which was overexpressed in M-EPIR (epirubicin-resistant MCF-7 subline) compared to MCF-7, was significantly suppressed by knockdown of RHAMM. In addition, the knockdown of RHAMM significantly altered the expression of N-cadherin and E-cadherin, leading to an epithelial phenotype. Conclusions: Aberrant RHAMM signaling were considered to cause chemoresistance related to cancer stemness and epithelial to mesenchymal transition, and increased cell proliferation and migration of both chemo-sensitive and chemo-resistant breast cancer cells.

Some parameters of the immune system in women with hyperandrogenism

The article is dedicated to studying certain parameters of the immune system, which holds great significance in obstetrics and gynecology. Examining immune system parameters allows for identifying disruptions in reproductive-aged women with hyperandrogenism, which holds crucial practical implications. The authors conducted an immunological study of women with hyperandrogenism and women without this pathology. The aim of the study was to investigate the immune system status in women suffering from hyperandrogenism. Materials and methods of the study: 58 reproductive-aged women diagnosed with hyperandrogenism, under observation at the Women’s Health Center “AyolCare” in Tashkent, were examined. Comprehensive clinical and laboratory examinations were conducted for all women. The control group comprised 35 practically healthy reproductive-aged women. The obtained results indicate that women with altered hormonal balance, including those with hyperandrogenism, experience specific changes in the immune system. The conducted research revealed that the levels of T lymphocytes and T helper/inducer cells decrease, while the number of T killer cells, CD25+ cells (carrying IL-2 receptor), and CD95+ cells (carrying apoptosis signaling receptor) increases. The elevated levels of CD95+ cells indicate increased activation of apoptosis processes, which serve as a protective function of T killer cells. This increase in lymphocyte activation is likely associated with elevated levels of mature activated macrophages and a range of cytokines they produce, which directly stimulate lymphocytes. The detected imbalance in immunological parameters likely indicates that in hyperandrogenism, either the elimination of activated clones of T helper cells is absent or disrupted, which usually leads to the formation of immune response suppression. The increase in the number of activated clones of T lymphocytes is observed in the decreased process of their apoptosis, which is likely intensified by the influence of androgens.

Parishin Alleviates Pulmonary Fibrosis by Reducing CD38 Levels in Naturally Aging Mice.

Parishin, a natural compound, has demonstrated significant potential in mitigating age-related phenotypes and improving outcomes in age-associated diseases. Given that aging is a major risk factor for numerous chronic conditions, including pulmonary fibrosis, we investigated parishin's effects on cellular senescence and lung health. In our study, we treated mouse lung epithelial cells with parishin and observed a reduction in cellular senescence markers alongside an upregulation of sirtuin 1 (SIRT1). Building on these in vitro findings, we administered parishin to naturally aged mice. The treatment resulted in decreased pulmonary fibrosis and reduced DNA damage in lung tissue. Notably, we found that parishin treatment led to a reduction in Cluster of differentiation 38 (CD38) levels, concomitant with an increase in SIRT1 expression. These findings indicate that parishin may enhance lung function in aged mice, suggesting its potential as a therapeutic agent for treating age-related pulmonary disorders.

Leveraging Xenobiotic-Responsive Cancer Stemness in Cell Line-Based Tumoroids for Evaluating Chemoresistance: A Proof-of-Concept Study on Environmental Susceptibility

Emerging evidence suggests that cancer stemness plays a crucial role in tumor progression, metastasis, and chemoresistance. Upon exposure to internal or external stress, ribosomes stand sentinel and facilitate diverse biological processes, including oncological responses. In the present study, ribosome-inactivating stress (RIS) was evaluated for its modulation of cancer cell stemness as a pivotal factor of tumor cell reprogramming. Based on the concept of stress-responsive cancer cell stemness, we addressed human intestinal cancer cell line-based off-the-shelf spheroid cultures. Intestinal cancer cell line-based spheroids exhibited heightened levels of CD44+CD133+ cancer stemness, which was improved by chemical-induced RIS. Further evaluations revealed the potential of these stress-imprinted spheroids as a platform for chemoresistance screening. Compared to adherent cells, stemness-improved spheroid cultures displayed reduced apoptosis in response to 5-fluorouracil (5-FU), a frontline chemotherapeutic agent against colorectal cancer. Moreover, serial subcultures with repeated RIS exposure maintained and even enhanced cancer stemness and chemoresistance patterns. In particular, isolated CD44+CD133+ cancer stem cells exhibited higher chemoresistance compared to unsorted cells. To elucidate the mechanisms underlying RIS-induced stemness, RNA-seq analysis identified Wnt signaling pathways and stemness-associated signals as notable features in spheroids exposed to RIS. Loss-of-function studies targeting connective tissue growth factor (CTGF), a negative regulator of Wnt signaling, revealed that CTGF-deficient spheroids exhibited improved cancer stemness and resistance to 5-FU, with RIS further enhancing these effects. In conclusion, this proof-of-concept study demonstrates the feasibility of leveraging stress-responsive cancer stemness for the development of spheroid-based platforms for chemoresistance evaluation and elucidation of pathophysiological processes of colorectal tumorigenesis under environmental stress.

B cell deficiency in thymoma tissues of Good’s syndrome patients

ObjectivesGood’s syndrome (GS) is a rare secondary immunodeficiency which is characterized by hypogammaglobulinemia and thymoma. This study aims to investigate the expression and distribution of B cells in thymoma tissue, given that B cells had been found to be reduced or absent in peripheral blood or bone marrow.MethodsThis study retrospectively analyzed thymoma tissues from 5 GS patients at the First Affiliated Hospital of Wenzhou Medical University and Zhejiang Provincial People’s Hospital. Tissues from 20 patients with simple thymoma were used as controls. Immunohistochemistry analyses were performed to detect the markers CD19, CD20, PAX5 and CD138 to evaluate the expression of B cells or plasma cells.ResultsCompared to the control group, 4 GS patients exhibited a complete absence of B cells in their thymoma tissue, while 1 GS patient exhibited a notable reduction in B cells. The expression levels of CD19, CD20 and PAX5 in the thymoma tissues of GS patients were dramatically lower than those in the control group (0 vs. 85%, 20 vs. 85%, 20 vs. 85%, respectively; P < 0.05). However, no significant difference was observed in the expression frequency of CD138 between the thymoma tissues of the two groups (0 vs. 30%, P > 0.05).ConclusionThis is the first report of B cell deficiency in 5 thymoma tissues of GS patients.

High mitochondrial DNA content is a key determinant of stemness, proliferation, cell migration, and cancer metastasis in vivo

Here, we examined the potential role of mitochondrial DNA (mtDNA) levels in conveying aggressive phenotypes in cancer cells, using two widely-used breast cell lines as model systems (MCF7[ER+] and MDA-MB-231[ER-]). These human breast cancer cell lines were fractionated into mtDNA-high and mtDNA-low cell sub-populations by flow cytometry, using SYBR Gold as a vital probe to stain mitochondrial nucleoids in living cells. Enrichment of mtDNA-high and mtDNA-low cell sub-populations was independently validated, using a specific DNA-binding mAb probe (AC-30-10), and mitochondrial-based functional assays. As predicted, mtDNA-high MCF7 cells showed significant increases in mitochondrial mass, membrane potential, and superoxide production, as well as increased mitochondrial respiration and ATP production. Moreover, mtDNA-high MCF7 cells demonstrated increases in stemness features, such as anchorage-independent growth and CD44 levels, as well as drug-resistance to Gemcitabine and Tamoxifen. Proliferation rates were also significantly increased, with a dramatic shift towards the S- and G2/M-phases of the cell cycle; this was indeed confirmed by RNA-Seq analysis. Complementary results were obtained with MDA-MB-231 cells. More specifically, mtDNA-high MDA-MB-231 cells showed increases in stemness features and ATP production, as well as rapid cell cycle progression. Moreover, mtDNA-high MDA-MB-231 cells also exhibited increases in both cell migration and invasion, suggesting a role for mtDNA in distant metastasis. To test this hypothesis more directly, a preclinical in vivo model was utilized. For this purpose, MDA-MB-231 tumour cell grafts were treated with an established mtDNA synthesis inhibitor, namely Alovudine (3’-deoxy-3’-fluorothymidine). As expected, drug-induced depletion of mtDNA led to a shift from mitochondrial to glycolytic metabolism. Interestingly, Alovudine very effectively reduced the formation of spontaneous metastases by nearly 70%, but minimally inhibited tumour growth by approximately 20%. Taken together, these data suggest that high mtDNA content is a key driver of stemness, proliferation, and migration, as well as cancer cell metastasis.

Proteome Signature for Differential Diagnosis of Patients with Bilateral Lung Infiltrates

BackgroundThe differential diagnosis of bilateral lung infiltrates and prognosis prediction can be challenging for clinicians in the intensive care unit (ICU). We analyzed the proteome from bronchoalveolar lavage fluid (BALF) and determine their usefulness for evaluating the infectious causes and mortality associated with bilateral lung infiltrates.MethodsIn the ICU cohort, 136 patients with bilateral infiltrate on chest radiographs were selected, and bronchoscopy with bronchoalveolar lavage (BAL) was performed. Proteomics profiling of the exosomes in the BALF (n=20) was conducted to identify candidate protein biomarkers potentially associated with infection or mortality. The BAL samples (n=116) were used to measure the candidate biomarker levels.ResultsThe candidate biomarkers, CD20, CLIC4, SCFD1, and TAP1, were selected for the differential diagnosis of infection or mortality. The levels of CD20 were significantly elevated in patients with non-infectious causes compared to those with infectious causes (248.6±154.5versus177.6±150.9 ng·mL−1, p=0.014). The levels of CLIC4, SCFD1, and TAP1 did not differ between the two groups. As per the receiver operating characteristic analysis, CD20 was a significant predictor of non-infectious causes (area under curve, 0.668; 95% CI, 0.567–0.769; p=0.002; cut off value, 167.6 ng·mL−1; sensitivity, 74.1%; specificity, 63.2%). There were no significant differences in the concentrations of the biomarkers between survivors and non-survivors.ConclusionsOur results suggested that CD20 levels in BALF might be a useful biomarker for differentiating non-infectious and infectious diseases in patients with bilateral lung infiltrates.

Molecular and Clinical Features of Pancreatic Acinar Cell Carcinoma: A Single-Institution Case Series

Objectives: Acinar cell carcinoma (ACC) accounts for about 1% of pancreatic cancers. The molecular and clinical features of ACC are less characterized than those of pancreatic ductal adenocarcinoma. Methods: We retrospectively evaluated the clinical and molecular features of ACC patients who underwent germline and/or somatic molecular testing at The University of Texas MD Anderson Cancer Center from 2008 to 2022 and two cases from 2023–2024 who underwent RNA and TME analysis by Boston Gene. Patient information was extracted from our institutional database with the approval of the Institutional Review Board. Results: We identified 16 patients with available molecular testing results. Fourteen patients had metastatic disease, one had borderline resectable disease, and one had localized resectable disease at diagnosis. Fifteen patients were wild type for KRAS (one patient had unknown KRAS status). Somatic/germline mutations of DNA damage repair genes (BRCA1/2, PALB2, and ATM) were present in 5 of 12 patients tested for these genes. One patient was found to have RET fusion and responded favorably to selpercatinib for over 42 months. The median overall survival (OS) was 24 months for patients with metastatic disease. One of the additional two cases who underwent BostonGene testing was found to have NTRK1 fusion. RNA and TME analysis by Boston Gene of the two cases reported immune desert features and relatively lower RNA levels of CEACAM5, CD47, CD74, and MMP1 and higher RNA levels of CDH6 compared with PDAC.

Microbe-immune interactions: new perspectives on coagulation deficiencies, purpura, and other hemorrhagic conditions under the regulation of the gut microbiota.

The relationship between gut microbiota and coagulation defects, purpura, and other hemorrhagic conditions (CPH) is currently unclear, with causal links yet to be firmly established. The causal relationships between gut microbiota and CPH, along with the potential mediating role of immune cells, were studied using Mendelian randomization analysis. Data on 412 gut microbiota species, 731 immune cell types, and CPH were methodologically compiled from genome-wide association studies and the FinnGen database. A 2-sample Mendelian randomization approach in 2 stages was used and the causal links between gut microbiota and CPH were statistically analyzed, assessing the potential mediation by immune cells. Sensitivity and reliability were ensured through heterogeneity and pleiotropy tests. The abundance of Alistipes putredinis (odds ratio [OR]=0.77, 95% confidence interval [CI] 0.64-0.93, P=0.006) was negatively correlated with CPH, whereas the abundance of Bacteroides stercoris (OR=1.25, 95%CI 1.09-1.45, P=0.002) was positively correlated with the risk of CPH. There was no evidence of reverse causality or the potential mediating effects of 731 immune cell types. The abundance of Proteobacteria (OR=0.81, 95%CI 0.71-0.92, P=0.001) and Coprococcus sp. ART55/1 (OR=0.87, 95%CI 0.80-0.96, P=0.005) was negatively associated with the risk of CPH, whereas the abundance of Enterobacteriales/Enterobacteriaceae (OR=1.36, 95%CI 1.12-1.64, P=0.002) was positively correlated with the risk of CPH, with no evidence of reverse causality. Furthermore, CD38 levels on CD3-CD19 cells can serve as a mediating factor for the influence of Proteobacteria on the pathogenesis of CPH, with a mediating effect ratio of 7.26%. An increase in Proteobacteria abundance leads to a decrease in CD38 expression on CD3-CD19- cells, thereby reducing the risk of developing CPH. CD3 expression on naive CD4+ in mature T cells serves as a mediating factor for the influence of Enterobacteriales/Enterobacteriaceae on the pathogenesis of CPH, whereas IgD CD38br AC expression on B cells serves as a mediating factor for the influence of Coprococcus sp. ART55/1 on the pathogenesis of CPH. The mediating effect is opposite to the overall trend and has a relatively small impact. No significant heterogeneity or pleiotropy was observed.

Unraveling the hepatoprotective and anti-pancreatic cancer potential of Caralluma europaea: a comprehensive in vivo, in vitro and in silico evidence

Caralluma europaea Guss. (C. europaea) is a medicinal plant used for cancer treatment. However, these treatments may be associated with complications that need to be investigated. This work aims to evaluate not only the chemical composition but also the hepatoprotective and anticancer properties of C. europaea extracts. The chemical constitution of the hydroethanolic extract was explored using gas chromatography-mass spectrometry (GC-MS) and high-performance liquid chromatography (HPLC). The hydroethanolic extract, flavonoids, and polyphenols-rich extract at 100, 15, and 50 mg/kg, respectively, were administered to acetaminophen-treated rats for seven days. We used Western blotting and Real-Time quantitative Polymerase Chain Reaction (RT-qPCR) to determine the protein and the mRNA levels of cancer stemness markers in pancreatic cancer cell lines MIA PaCa-2 and BxPC-3 exposed to increasing doses of C. europaea extracts. In silico analysis was used to evaluate the effects of phenolic compounds revealed in C. europaea on caspase-3 and HSP90, and on liver damage on CYP2E1. The primary phenolics detected by GC-MS and HPLC were ferulic acid and benzofurazan. The positive control group showed an increase in AST, ALT, ALP, triglycerides, and VLDL levels. C. europaea extracts demonstrated hepatoprotective effects by ameliorating acetaminophen-induced alterations of biochemical and hispathological parameters. Immunoblotting and RT-qPCR profiling of cancer stemness markers indicated a reduction in the expression levels of Oct-4 and Nanog proteins, as well as a reduction in the mRNA levels of CD133 by 50–60% and Sox2 by 80–90% in pancreatic cancer cells. Molecular docking showed that naringenin presented the highest docking Gscore on CYP2E1 (−8.199) and HSP90 (−7.742). In conclusion, C. europaea extracts could be considered as a safe and promising therapeutic strategy to sensitize pancreatic cancer cells to chemotherapy.

Application of XBP1s Decoy Oligodeoxynucleotide Attenuates Cancerous Phenotype in Huh-7 Hepatocellular Carcinoma Cells.

The spliced form of X-box binding protein 1 (XBP1s) is a key transcription factor in the unfolded protein response (UPR), an adaptive mechanism for cell survival. Many studies demonstrated the induced expression of XBP1s in various cancers, including hepatocellular carcinoma (HCC). Such upregulated expression is linked to an enhancement of cell proliferation, migration, and improvement of the survival rate. In this study, we aimed to assess the therapeutic potential of targeting XBP1s, by specific decoy oligodeoxynucleotide (ODN) and evaluated the cancerous phenotypes in Huh-7 cells. In this experimental study, we transfected Huh-7 cells with XBP1s decoy oligonucleotide (ODN). Subsequently, we assess some cellular features, including viability, migration capacity, proliferation potential, and apoptosis. Therefore, various techniques included wound healing test, BrdU, and annexin/PI assays. Additionally, the colony formation capacity was evaluated. The mRNA expression levels of BAX, BCL-2, c-MYC, CCND1, MMP-9, CDH1, and CD133 were quantified by the reverse transcription-quantitative polymerase chain reaction (RT-qPCR). Transfection of Huh-7 cells by XBP1s decoy ODN led to significant down-regulation of c-Myc, CCND1, MMP-9, BCL-2 and CD133 and up-regulation of CDH1 and BAX transcriptional expressions in comparison with the vehicle group. Our results also demonstrated that transfection of XBP1s-decoy reduced HCC cell viability, proliferation, migration capacity as well as colonization ability in comparison with the vehicle group. These findings proposed the potential application of XBP1s-decoy ODN to reduce cancerous phenotypes such as cell proliferation, cell migration and apoptosis induction in the Huh-7 cell line. More experiments on other cell lines and primary cells could validate our results.

Comparative Evaluation of the Immunophenotypic Profile of Acute Lymphoblastic Leukaemia in Adult and Paediatric Age Groups in Iraq

Background: Immunophenotyping is a primary tool for investigating acute lymphoblastic leukemia (ALL). Acute lymphoblastic leukemia accounts for 75 - 80% of pediatric leukemia cases and 14% of adult leukemia cases. However, the prognostic factors, treatment strategies, and pathogenic pathways differ between these groups. Objectives: This study aims to compare the pattern of antigen expression between adult and pediatric ALL patients in the Iraqi population and to evaluate the frequency of aberrant myeloid antigen expression in both groups. Methods: A total of 131 patients with de-novo ALL were studied from May 2014 to May 2015. The diagnosis of ALL was confirmed by morphology and immunophenotyping of peripheral blood and bone marrow aspirate specimens using a panel of fluorochrome-labeled antibodies in 6 - colored flow cytometry. Results: The B-ALL phenotype was prevalent in 44 (68.7%) of adult patients compared to 51 (76.1%) in the pediatric group. CD10 expression was present in 49 (76.6%) of adults, mostly with B-ALL. The pediatric group had lower CD10 expression in T-ALL (P = 0.039). CD20 expression was significantly lower in adults compared to children. In T-ALL, significant differences between adult and pediatric groups were observed in CD1a and CD2 expression. Aberrant myeloid antigen expression was present in 29 (45.3%) adults and 30 (44.8%) pediatric patients, with CD33 and CD13 being the most prevalent in both groups. Conclusions: There was an increased T-cell lineage and aberrant antigen expression in both adult and pediatric ALL cases in this Iraqi sample. Adults with ALL tend to display higher levels of CD20 and lower levels of CD1a and CD2 compared to children, markers associated with poorer prognoses.

CD151 identifies an NK cell subset that is enriched in COVID-19 patients and correlates with disease severity

Severe coronavirus disease 2019 (COVID-19) often leads to acute respiratory distress syndrome and multi-organ dysfunction, driven by a dysregulated immune response, including a cytokine storm with elevated proinflammatory cytokine levels. Natural killer (NK) cells are part of the innate immune system with a fundamental role in the defense against viral infections. However, during COVID-19 acute infection, they exhibit an altered phenotype and impaired functionality contributing to the immunopathogenesis of the disease. In this work, we have studied a cohort of patients with COVID-19 (ranging from mild to severe) by analyzing IL-15, TGF-β, PlGF and GDF-15 plasma levels and performing multiparametric flow cytometry studies. Our results revealed that severe COVID-19 patients exhibited high levels of IL-15, PlGF and GDF-15, along with an enrichment of anNK cell subset expressing the CD151 tetraspanin, which correlated with IL-15 plasma levels and disease severity. In patients, these CD151+ NK cells displayed a more activated phenotype characterized by an increased expression of HLA-DR, CD38 and granzyme B, a distinct receptor repertoire, with lower levels of CD160 and CD31 and higher levels of CD55 and, remarkably, a higher expression of tissue-resident markers CD103 and the NK cell decidual marker CD9. Last of all, in individuals with severe disease, we identified an expansion of a CD151brightCD9+ NK cell subset, suggesting that these cells play a specific role in COVID-19. Altogether, our findings suggest that CD151+ NK cells may have a relevant role in COVID-19 immunopathogenesis.

Assessment of the circulating levels of immune system checkpoint selected biomarkers in patients with lung cancer.

Lung cancer is recognized as one of the leading causes of cancer-related deaths globally, with a significant increase in incidence and intricate pathogenic mechanisms. This study examines the expression profiles of Programmed Cell Death Protein 1 (PD-1), PD-1 ligand (PDL-1), β-catenin, CD44, interleukin 6 (IL-6), and interleukin 10 (IL-10), as well as their correlations with the clinic-pathological features and diagnostic significance in lung cancer patients. The research involved lung cancer patients exhibiting various pathological characteristics, alongside demographically matched healthy controls. The expression levels of PD-1, PDL-1, β-catenin, and CD44 were analyzed using Real-Time PCR, while circulating levels of IL-6 and IL-10 were assessed through ELISA assays. This investigation focused on peripheral blood mononuclear cells (PBMC) to evaluate these factors non-invasively. Findings indicated that levels of PD-1, PDL-1, and CD44 were significantly elevated in patients compared to controls, which coincided with a decrease in β-catenin levels. Additionally, a concurrent rise in IL-6 and IL-10, both pro-inflammatory cytokines, was observed in patients, suggesting a potential regulatory role for these cytokines on the PD-1/PDL-1 axis, which may help tumors evade immune system checkpoints. The predictive value of these factors concerning lung tumors and metastasis was significant (Regression analysis). Furthermore, these markers demonstrated diagnostic potential in differentiating between patients and healthy controls, as well as between individuals with metastatic and non-metastatic tumors (ROC curve analysis). This study provides insights into the expression profiles of PD-1/PDL-1 immune system checkpoints and their regulatory factors in lung cancer, potentially paving the way for new therapeutic and diagnostic approaches.

Design of a Robust Flow Cytometric Approach for Phenotypical and Functional Analysis of Human Monocyte Subsets in Health and Disease.

Human monocytes can be subdivided into phenotypically and functionally different classical, intermediate and non-classical monocytes according to the cell surface expression of CD14 and CD16. A precise identification and characterisation of monocyte subsets is necessary to unravel their role in inflammatory diseases. Here, we compared three different flow cytometric strategies (A-C) and found that strategy C, which included staining against CD11b, HLA-DR, CD14 and CD16, followed by several gating steps, most reliably identified monocyte subtypes in blood samples from healthy volunteers and from patients with stable coronary heart disease (CHD) or ST-elevation myocardial infarction (STEMI). Additionally, we established a fixation and permeabilisation protocol to enable the analysis of intracellular markers. We investigated the phagocytosis of lipid nanoparticles, the uptake of 2-NBD-glucose and the intracellular levels of CD74 and HLA-DM. This revealed that classical and intermediate monocytes from patients with STEMI showed the highest uptake of 2-NBD-glucose, whereas classical and intermediate monocytes from patients with CHD took up the largest amounts of lipid nanoparticles. Interestingly, intermediate monocytes had the highest expression level of HLA-DM. Taken together, we present a robust flow cytometric approach for the identification and functional characterisation of monocyte subtypes in healthy humans and patients with diseases.

Evaluation of CD10 and E-cadherin as Biomarkers in Chronic Kidney Disease Progression at Al-Najaf Province/Iraq

Chronic Kidney Disease (CKD) is when kidney function deteriorates over three months, resulting in a build-up of waste in the blood and tissues. Common causes of CKD include diabetes and hypertension. The study aims to investigate the association of ( E-cadherin, CD10) and other biomarkers in patients suffering from CKD and the possibility of using them as diagnostic criteria. The cohort of 96 patients with CKD and the control group of 88 healthy individuals comprised the current stud. The levels of CD10, E-cadherin, and other biochemicals were measured in the serum of the experimental group and the patients. The findings demonstrated that in contrast to healthy individuals, patients with CKD had significantly lower serum concentrations of E-cadherin (p&lt;0.05), while there was no significant difference in CD10 levels between the patient and control groups (p&gt;0.05). These results corroborate data indicating an essential role the E-cadherin marker may play in the development of chronic kidney disease.

Facilitating cholangiocarcinoma inhibition by targeting CD47

Immune evasion is one of the mechanisms by which cancer cells acquire immunity during cancer development and progression. One of these is the increased expression of cluster of differentiation 47 (CD47), a transmembrane glycoprotein that protects cells from phagocytic elimination. The interaction between CD47 and signal regulatory protein alpha (SIRPα) on macrophages alleviates the phagocytic signal. The present group previously reported high CD47 expression in cholangiocarcinoma (CCA), a major health problem in Thailand and East Asia, and that blocking CD47 using anti-CD47 antibodies promoted the removal of CCA. However, the mechanism through which CD47 inhibition attenuates CCA growth remains unclear. This study explored the clinical significance of targeting CD47 in CCA. Expression levels of CD47 and the macrophage marker CD68 were determined in CCA tissues by immunohistochemistry and correlated with clinical parameters. The role of CD47 in CCA cells was established using CD47-deficient KKU-213A CCA clones in vitro and in vivo. The results showed that CD47 was highly expressed in CCA tissues and significantly correlated with lymph node metastasis (P = 0.038). Moderate-to-dense CD68-positive infiltrating cells in CCA tissues were significantly associated with shorter survival of patients (P = 0.019) and were an independent prognostic factor of CCA patients as determined by the Cox proportional hazard model (hazard ratio, 2.040; 95 % confidence interval, 1.109–3.752; P = 0.022). Three CD47-deficient KKU-213A clones (#19, #23, and #28) were generated. The elimination of CD47 did not affect cell proliferation but increased monocyte-derived macrophage-mediated phagocytosis in vitro. Decreased tumor weights and volumes were observed in mice injected with CD47-deficient CCA clones. This revealed a significant role for CD47 in CCA, with a focus on protecting cancer cells from macrophage phagocytosis.

The effect of sodium deoxyribonucleate with iron complex on the expression of surface markers of MT-4 cells infected with human immunodeficiency virus type 1 (HIV-1) (Retroviridae: Primate lentivirus group)

The persistence of immune dysfunction during therapy has serious consequences for the health of HIV-infected people. Therefore, an important direction is the search for drugs that can reduce the inflammatory potential of the immune system and serve as an additional component of antiviral therapy. Aim ‒ to study the effect of the immunomodulatory drug Sodium deoxyribonucleate with iron complex (DNA-Na-Fe) on the expression of activation markers in MT-4 cells infected with HIV-1. Expression levels of CD4, CD28, CD38, CD62L and HLA-DR proteins on the plasma membrane were measured in cells. To assess viral activity, the p24 protein was quantified by ELISA. The two cell variants with different replicative activity were analyzed. Control cells, cells with DNA-Na-Fe, infected cells and infected cells with DNA-Na-Fe were tested. Based on the results obtained, it can be concluded that antiviral activity of the drug in MT-4 cells infected with HIV-1 is associated with immunomodulatory activity that enhances the expression of membrane proteins CD4, CD28, CD38 and CD62L. Diversity in the effect of DNA-Na-Fe on the studied surface proteins expression in two cell lines indicates that they depend on the characteristics of the combined molecular biological processes occurring in cells. And the increased effects observed in a system with changes in replicative activity assumes its active participation in virus replication at the stages of virus penetration and budding. Studies have shown that DNA-Na-Fe has antiviral and immunomodulatory activity.