The relationship of GITR, Lag-3 and PD-1 expression with the main indicators of systemic and local immunity in patients with breast cancer

Background. To enhance the antitumor immune response, new promising methods of immunotherapy are being developed. They consist in the blockade and activation of immune check-point molecules, in particular, the blockade of the Lag‐3 molecule (lymphocyte-activation gene 3) and the activation of the GITR receptor (Glucocorticoid induced TNF receptor). In the studies of combined use with PD-1 blockers, encouraging results were obtained, which makes the assessment of the expression of Lag-3 and GITR on immunocompetent cells of peripheral blood (PB) and tumor tissue necessary for the personalization of such treatment and understanding of the mechanisms of the antitumor immune response. Materials and methods. The study included peripheral blood samples and surgical material from 39 breast cancer patients being treated at the Blokhin National Medical Research Center of Oncology. The subpopulation composition and expression of PD-1, Lag-3, and GITR molecules were evaluated by flow cytometry. Results. The analysis of the main populations of PB lymphocytes showed that in patients with breast cancer, the content of NKT-lymphocytes was increased, and the proportions of lymphocytes expressing CD11b and CD25 markers were increased compared to the donor group. It was revealed that the tumor tissue is dominated by T-cells, an increase in the proportion of which occurs due to a reduced content of NK-lymphocytes and B-lymphocytes. The structure of Tumor-infiltrating lymphocytes (TILs) is dominated by subpopulations with immunosuppressive activity, which is indicated by a decrease in the content of CD11b+, CD25+ and perforin-positive cells, increased expression of Lag-3 and PD-1. For PB and tumor tissue, the average degree of dependence of Lag-3 expression on the content of PD-1+ lymphocytes was shown. There is an increase in the content of immunosuppressive subpopulations with high PD-1 values in PB and TILs. The direct dependence of the number of perforin-containing lymphocytes and CD11b expression on the GITR content in the PB was established, but it is not typical for breast cancer tissue. Conclusion. Since the blockade of the Lag-3 molecule by monoclonal antibodies can enhance the effect of anti-PD-1 therapy in cancer patients, it is necessary to evaluate the expression and co-expression of these two markers. A high content of GITR-positive lymphocytes in the tumor tissue, on the one hand, and a decrease in the proportion of effector subpopulations of lymphocytes, on the other, indicates the influence of the tumor microenvironment on the functioning of GITR-mediated activation of the immune response. Further investigation of GITR expression and functional activity is required to understand the nature of this contradiction.

The influence of preconditioning with low dose of LPS on paraquat-induced neurotoxicity, microglia activation and expression of α-synuclein and synphilin-1 in the dopaminergic system

Background Prolonged inflammation, oxidative stress, and protein aggregation are important factors contributing to Parkinson’s disease (PD) pathology. A known ROS generator, pesticide paraquat (PQ), was indicated as an environmental substance potentially increasing the incidence of PD and is used to model this disease. We investigated if a combination of inflammation and oxidative stress in subthreshold doses would exacerbate the modelled neuropathology. Methods We examined the late effects of acute or repeated peripheral inflammation induced by low dose of LPS (10 μg/kg, ip) on PQ toxicity in the rat nigrostriatal dopaminergic pathway, microglial activation markers and expression of major Lewy bodies proteins, α-synuclein and synphilin-1. Results We observed that LPS increased, while PQ decreased body temperature and microglia CD11b expression in the SN. Single LPS pretreatment, 3 h before repeated weekly PQ injections (4×) slightly aggravated neuronal degeneration in the SN. Moreover, degeneration of dopaminergic neurons after weekly repeated inflammation itself (4×) was observed. Interestingly, repeated LPS administration combined with each PQ dose counteracted such effect. The expression of α-synuclein decreased after repeated LPS injections, while only combined, repeated LPS and PQ treatment lowered the levels of synphilin-1. Therefore, α-synuclein and synphilin-1 expression change was influenced by different mechanisms. Concomitantly, decreased levels of the two proteins correlated with decreased degeneration of dopaminergic neurons and with a normalized microglia activation marker. Conclusions Our results indicate that both oxidative insult triggered by PQ and inflammation caused by peripheral LPS injection can individually induce neurotoxicity. Those factors act through different mechanisms that are not additive and not selective towards dopaminergic neurons, probably implying microglia. Repeated, but small insults from oxidative stress and inflammation when administered in significant time intervals can counteract each other and even act protective as a preconditioning effect. The timing of such repetitive insults is also of essence.

Lentiviral Vector-Mediated Gene Transfer Restores CD18 Expression in Long-Term Repopulating Hematopoietic Stem and Progenitor Cells Isolated from a Patient with Leukocyte Adhesion Deficiency Type 1

Leukocyte adhesion deficiency type 1 (LAD-1) is an inherited primary immunodeficiency caused by loss-of-function mutation within the ITGB2 gene, which encodes the beta2 integrin subunit CD18. Individuals with LAD-1 experience significant loss of neutrophil-mediated innate cellular immune function, resulting in delayed wound healing, severe periodontitis, and life-long bouts of bacterial infection. LAD-1 is a prime candidate for lentiviral vector-mediated genetic intervention as i) it is an intractable, potentially life-threatening disease with limited treatment options, ii) it is amenable to current ex vivo gene therapy procedures, and iii) partial phenotypic correction would present a high likelihood of significant clinical benefit. Allogeneic stem cell transplant can be curative, but suffers from matched donor availability and the potential for graft-versus-host disease. Autologous ex vivo gene therapy may provide a viable alternative to allogeneic transplant in LAD-1 patients. We have evaluated the ability of a CD18-expressing lentiviral vector (LV-hCD18) to mediate ex vivo transduction of LAD-1 patient-derived CD34+ hematopoietic stem and progenitor cells (HSPCs) and subsequent long-term LAD-1 HSPC engraftment in immunodeficient NOD-scid IL2Rg null (NSG) mice. An open reading frame encoding human CD18 was placed under the transcriptional control of the MND promoter (a modified retroviral promoter associated with high levels of stable transgene expression) and packaged in VSV-G-pseudotyped lentiviral particles. After 1 day of pre-stimulation, LAD-1 HSPCs were transduced with LV-hCD18 (MOI = 10) in the presence or absence of transduction-enhancing adjuvants, poloxamer 407 (P407) and prostaglandin E2 (PGE 2), for 24 hours. Sublethally irradiated NSG mice (7 mice/group) were transplanted with either mock-transduced LAD-1 HSPCs, LAD-1 HSPCs transduced in the absence of adjuvants, or LAD-1 HSPCs transduced in the presence of P407/PGE 2. Bone marrow was harvested at ~5.5 months post-transplant for flow cytometric analyses of engraftment efficiency, transgene marking, and human blood cell lineage reconstitution. Bone marrow from mice that received mock-transduced LAD-1 HSPCs showed an average total of 6.45 ± 2.54% (mean ± SEM) CD45+ human cells. Mice that received LAD-1 HSPCs transduced in the absence of adjuvants showed 7.99 ± 1.82% CD45+ human cells, whereas mice transplanted with LAD-1 HSPCs transduced in the presence of adjuvants showed 7.33 ± 1.90% CD45+ cells. A Kruskal-Wallis statistical test indicated no significant difference in the level of human cell engraftment among the recipient groups (P=0.72). Consistent with the LAD-1 phenotype, human myeloid cells from mice that received mock-transduced LAD-1 HSPCs displayed only background levels of CD18 marking (0.13 ± 0.06% CD45+CD13+CD18+ cells). Mice that received LAD-1 HSPCs transduced in the absence of adjuvants showed 4.05 ± 0.40% CD18+ human myeloid cells (range 2.19% to 5.50%), whereas mice that received LAD-1 HSPCs transduced in the presence of P407/PGE 2 showed 9.56 ± 0.96% CD18+ human myeloid cells (range 4.63% to 13.10%), thus representing a >2-fold increase in in vivo, vector-mediated transgene marking levels when adjuvant was used. Moreover, vector-mediated expression of CD18 rescued endogenous expression of a major CD18 heterodimerization partner in neutrophils, CD11b. In mock-transduced LAD-1 HSPC recipients, CD13+ human myeloid cells were devoid of cell surface CD11b expression (0.01 ± 0.01% CD45+CD13+CD11b+ cells). In contrast, CD13+ human myeloid cells in mice that received LAD-1 HSPCs transduced in the absence of adjuvant showed detectable levels of CD11b expression (2.62 ± 0.19% of CD18-expressing human myeloid cells), and CD11b levels were increased to 6.90 ± 0.98% in LAD-1 HSPCs transduced in the presence of P407/PGE 2. Multilineage engraftment, as evidenced by the presence of CD3+ T cells and CD20+ B cells, was noted within all groups; however, human myeloid cells represented the most prominent human blood cell compartment observed. Colony-forming-unit assays of transduced cells and non-transduced control cells pre-transplant showed similar clonogenic output and colony diversity. In sum, successful transduction, engraftment, transgene marking, CD11b rescue, and multilineage reconstitution supports further development of lentiviral vector-mediated gene therapy for LAD-1. Disclosures No relevant conflicts of interest to declare.

Genetic Ablation of Nuclear Receptor Interacting Protein 1 (NRIP1) Sensitizes Acute Myeloid Leukemia Cells to Retinoic Acids

The success of differentiation therapy is limited to acute promyelocytic leukemia (APL), and approaches to overcome the differentiation block in non-M3 AML have been unsuccessful. Nuclear hormone receptors (NHR) belong to ligand-inducible transcription factors that govern many cellular functions like differentiation, metabolism, and development. Retinoic Acid Receptor Alpha (RXRA) is a class of NHR that, when activated by all-trans retinoic acid (ATRA), successfully alleviates differentiation block in APL. To identify the NHRs/cofactors that could mediate or prevent differentiation in AML, we examined the differentially expressed NHRs and cofactors between ATRA sensitive (ATs) (NB4 and HL60) vs. ATRA resistant (ATr) AML cell lines (KG1a, Hel, K562, MV4-11, and OCI-AML3). Nuclear Receptor Interacting Protein 1 (NRIP1), a corepressor known to prevent transactivation of ligand-activated NHRs preferentially, was one of the top upregulated targets in the ATr cell lines (3.5 fold increase in RNA expression, figure 1a ). Immunoblot analysis also showed a significant increase in NRIP1 protein expression in the ATr than ATs cell lines (Figure 1b). Further, probing for NRIP1 expression in the publicly available TCGA and MILE AML study cohorts showed decreased NRIP1 expression in the APL cohort compared to other AML subtypes. Methylation profile from CCLE database of the NRIP1 promoter in AML cell lines showed ATs cell lines to be highly methylated compared to the ATr cell lines, suggesting the involvement of NRIP1 in mediating differentiation block in non-M3 AML (Figure 1c). To further dissect the role of NRIP1 in mediating this differentiation block, we carried out experiments in the AML cell line KG1a (having primitive blast features, high expression of NRIP1, and unresponsive to ATRA). Using CRISPR-cas9, we developed an NRIP1 knock-out (KO) cell line (Figure 1d). NRIP1 KO cell line showed a significant reduction in proliferation rate (Doubling time 26.2 vs. 36.5Hrs p<0.05). Further, cell cycle analysis revealed that NRIP1 KO leads to increased accumulation of cells in the G0 phase than in the S-phase (Figure 1e & f). We next assessed the sensitivity of the NRIP1 WT/KO cells to retinoic acids ATRA and bexarotene. Cells were treated with 1µM ATRA / bexarotene or in combination for 72 hours and evaluated for differentiation using CD11b marker by flow cytometry. NRIP1 KO alone leads to a marginal increase in basal CD11b expression compared to the WT cells (Mean CD11b expression 2.03% Vs 0.91%). ATRA treatment further increased the CD11b expression to 3.8% in KO cells compared to 1.6% in the WT cells. A similar increase in CD11b expression was observed in bexarotene-treated cells (3.7% Vs 1.24%). Combination of ATRA with bexarotene showed a 3-fold increase in CD11b expression in the KO cells compared to the WT (23.9% Vs 7.2%, Figure 1g). NRIP1 KO diminishes its repressive action on ligand-activated RARA (ATRA activated) and RXRA (Bexarotene-activated), thereby allowing synergistic differentiation induction by retinoic acids in AML cells. This study suggests a potential mechanism of differentiation inhibition mediated by corepressor NRIP1 in AML cells unresponsive to retinoic acids. Further in-depth analyses of molecular pathways governed by NRIP1 during ligand activation of NHRs are warranted to design differentiation therapies for AML. Figure 1 Figure 1. Disclosures Mathews: Christian Medical College: Patents & Royalties: US 2020/0345770 A1 - Pub.Date Nov.5, 2020; AML: Other: Co-Inventor.

Changes in Functional Glucocorticoid Sensitivity of Isolated Splenocytes Induced by Chronic Psychosocial Stress – A Time Course Study

Chronic psychosocial stress is a risk factor for the development of numerous disorders, of which most are associated with chronic low-grade inflammation. Given the immunosuppressive effects of glucocorticoids (GC), one underlying mechanism might be the development of stress-induced GC resistance in certain immune cell subpopulations. In line with this hypothesis, male mice exposed to the chronic subordinate colony housing (CSC, 19 days) model develop GC resistance of in vitro lipopolysaccharide (LPS)-stimulated splenocytes, splenomegaly and an increased percentage of splenic CD11b+ cells. Here male C57BL/6N mice were euthanized at different days during CSC, and following 30 days of single housing after stressor termination to assess when CSC-induced splenic GC resistance starts to develop and whether this is a transient effect. Moreover, splenic CD11b, GC receptor (GR) and/or macrophage migration inhibiting factor (MIF) protein levels were quantified at respective days. While mild forms of CSC-induced GC resistance, increased splenic CD11b expression and/or splenomegaly were detectable on days 8 and 9 of CSC, more severe forms took until days 15 and 16 to develop, but normalized almost completely within 30 days following stressor termination (day 51). In contrast, splenic GR expression was decreased in CSC versus single-housed control (SHC) mice at all days assessed. While MIF expression was increased on days 15 and 16 of CSC, it was decreased in CSC versus SHC mice on day 20 despite persisting splenomegaly, increased CD11b expression and functional GC resistance. In summary, our data indicate that GC resistance and CD11b+ cell-mediated splenomegaly develop gradually and in parallel over time during CSC exposure and are transient in nature. Moreover, while we can exclude that CSC-induced reduction in splenic GR expression is sufficient to induce functional GC resistance, the role of MIF in CD11b+ cell-mediated splenomegaly and GC resistance requires further investigation.

Crosstalk Between CD11b and Piezo1 Mediates Macrophage Responses to Mechanical Cues

Macrophages are versatile cells of the innate immune system that perform diverse functions by responding to dynamic changes in their microenvironment. While the effects of soluble cues, including cytokines and chemokines, have been widely studied, the effects of physical cues, including mechanical stimuli, in regulating macrophage form and function are less well understood. In this study, we examined the effects of static and cyclic uniaxial stretch on macrophage inflammatory and healing activation. We found that cyclic stretch altered macrophage morphology and responses to IFNγ/LPS and IL4/IL13. Interestingly, we found that both static and cyclic stretch suppressed IFNγ/LPS induced inflammation. In contrast, IL4/IL13 mediated healing responses were suppressed with cyclic but enhanced with static stretch conditions. Mechanistically, both static and cyclic stretch increased expression of the integrin CD11b (αM integrin), decreased expression of the mechanosensitive ion channel Piezo1, and knock down of either CD11b or Piezo1 through siRNA abrogated stretch-mediated changes in inflammatory responses. Moreover, we found that knock down of CD11b enhanced the expression of Piezo1, and conversely knock down of Piezo1 enhanced CD11b expression, suggesting the potential for crosstalk between integrins and ion channels. Finally, stretch-mediated differences in macrophage activation were also dependent on actin, since pharmacological inhibition of actin polymerization abrogated the changes in activation with stretch. Together, this study demonstrates that the physical environment synergizes with biochemical cues to regulate macrophage morphology and function, and suggests a role for CD11b and Piezo1 crosstalk in mechanotransduction in macrophages.

Predictors of the CD24/CD11b Biomarker among Healthy Subjects

The CD24 gene has raised considerable interest in tumor biology as a new prognostic factor and a biomarker for the early detection of cancer. There are currently no studies that assess predictors of CD24 in blood tests among healthy individuals. Our aims were (1) to evaluate predictors of the CD24/CD11b biomarker among healthy subjects and (2) to assess CD24/CD11b levels of participants with and without benign tumors. Our cohort included 1640 healthy subjects, aged 20–85, recruited at the Health Promotion and Integrated Cancer Prevention Center (ICPC) in the Tel Aviv Medical Center. Eligible subjects completed a detailed questionnaire on medical history and other epidemiologic information. CD24/CD11b expression in peripheral blood leukocytes (PBLs) obtained from blood samples of participants was analyzed by flow cytometry. Our results showed that the average levels of CD24/CD11b in healthy patients (22.8 ± 9.3) was statistically significant lower compared to subjects with benign cancers (26.1 ± 10.5, p < 0.001). Our multivariable analysis demonstrated that elevated levels of CRP (coefficient β: 1.98, p = 0.011) were significantly associated with high levels of CD24/CD11b expression among healthy participants. Other risk factors of cancer were not associated with elevated CD24 levels among healthy subjects. In conclusion, our findings may assist in further development and optimization of the CD24/CD11b biomarker to serve as a cancer screening test for early detection of cancer among the healthy population.

Chronic Alcoholism and HHV-6 Infection Synergistically Promote Neuroinflammatory Microglial Phenotypes in the Substantia Nigra of the Adult Human Brain

Both chronic alcoholism and human herpesvirus-6 (HHV-6) infection have been identified as promoters of neuroinflammation and known to cause movement-related disorders. Substantia Nigra (SN), the dopaminergic neuron-rich region of the basal ganglia, is involved in regulating motor function and the reward system. Hence, we hypothesize the presence of possible synergism between alcoholism and HHV-6 infection in the SN region and report a comprehensive quantification and characterization of microglial functions and morphology in postmortem brain tissue from 44 healthy, age-matched alcoholics and chronic alcoholics. A decrease in the perivascular CD68+ microglia in alcoholics was noted in both the gray and white matter. Additionally, the CD68+/Iba1− microglial subpopulation was found to be the dominant type in the controls. Conversely, in alcoholics, dystrophic changes in microglia were seen with a significant increase in Iba1 expression and perivascular to diffuse migration. An increase in CD11b expression was noted in alcoholics, with the Iba1+/CD11b− subtype promoting inflammation. All the controls were found to be negative for HHV-6 whilst the alcoholics demonstrated HHV-6 positivity in both gray and white matter. Amongst HHV-6 positive alcoholics, all the above-mentioned changes were found to be heightened when compared with HHV-6 negative alcoholics, thereby highlighting the compounding relationship between alcoholism and HHV-6 infection that promotes microglia-mediated neuroinflammation.

Feasibly of CD24/CD11b as a Screening Test for Hematological Malignancies

An estimated 1.24 million blood cancer cases occur annually worldwide, accounting for approximately 6% of all cancer cases. Currently, there are no standardized hematology cancer screening tests that are recommended for the general population. CD24 is a mucin-like cell surface molecule and P-selectin ligand, which plays a significant role in the maturation of B-lymphocytes and was found to be overexpressed in a number of hematological malignancies. Our primary aim was to assess the sensitivity and specificity of the CD24/CD11b-based blood test for the detection of hematological malignancies. Our cohort included 488 subjects with positive hematological cancer diagnosis (n = 122) and healthy subjects (n = 366). CD24/CD11b expression in peripheral blood leukocytes (PBLs) obtained from blood samples of participants was analyzed by flow cytometry. Our results demonstrated that the average levels of CD24/CD11b in healthy patients (21.7 ± 9.0) were statistically significantly lower compared to levels of CD24/CD11b in cancer patients (29.5 ± 18.7, p < 0.001). The highest levels of CD24/CD11b were found in multiple myeloma (39.1 ± 23.6), followed by chronic myeloid leukemia (33.0 ± 13.7) and non-Hodgkin lymphoma (32.3 ± 13.3). The test had an overall sensitivity for hematologic cancers of 78.5% (95% CI, 70.7–86.3%) and specificity of 80.2% (95% CI, 76.1–84.3%). In conclusion, our findings indicate the feasibility of a CD24/CD11b-based blood test as a screening test of hematological malignancies.

Standardized porcine unilateral femoral nailing is associated with changes in PMN activation status, rather than aberrant systemic PMN prevalence

Purpose Intramedullary nailing (IMN) of fractures is associated with increased rates of inflammatory complications. The pathological mechanism underlying this phenomenon is unclear. However, polymorphonuclear granulocytes (PMNs) seem to play an important role. We hypothesized that a femur fracture and standardized IMN in pigs is associated with altered appearance of PMNs in circulation and enhanced activation status of these cells. Methods A porcine model including a femur fracture and IMN was utilized. Animals were randomized for control [anesthesia + mechanical ventilation only (A/MV)] and intervention [A/MV and unilateral femur fracture (FF) + IMN] conditions. PMN numbers and responsiveness, integrin (CD11b), L-selectin (CD62L) and Fcγ-receptor (CD16 and CD32)-expression levels were measured by flowcytometry of blood samples. Animals were observed for 72 h. Results Circulatory PMN numbers did not differ between groups. Early PMN-responsiveness was retained after insult. PMN-CD11b expression increased significantly upon insult and peaked after 24 h, whereas CD11b in control animals remained unaltered (P = 0.016). PMN-CD16 expression levels in the FF + IMN-group rose gradually over time and were significantly higher compared with control animals, after 48 h (P = 0.016) and 72 h (P = 0.032). PMN-CD62L and CD32 expression did not differ significantly between conditions. Conclusion This study reveals that a femur fracture and subsequent IMN in a controlled setting in pigs is associated with enhanced activation status of circulatory PMNs, preserved PMN-responsiveness and unaltered circulatory PMN-presence. Indicating that monotrauma plus IMN is a specific and substantial stimulus for the cellular immune system. Early alterations of circulatory PMN receptor expression dynamics may be predictive for the intensity of the post traumatic response.