Cytotoxic Treatment Research Articles

Effects of cardiologic magnetic and optical stimulation on quality of life in patients receiving systemic treatment for cancer: a pilot study

ABSTRACT Background Oncological systemic treatments such as cytotoxic chemotherapy, radiation therapy or treatment with biological response modifiers can alter the quality of life (QoL) of cancer patients. The aim of this study is to assess the effects of cardiologic magnetic and optical stimulation (CMOS) on QoL in patients with advanced cancer receiving systemic treatment. For this purpose, we designed a non-invasive device that can reproduce and dynamically modulate stimulations of the same nature as the biological electromagnetic emissions specific to the body (cardiac). These crafted emissions were sent back to the body in perfect synchronization with the Electrocardiogram (ECG) in order to foster resonance mechanisms. Methodology In the phase pilot EPHEME, the experimental group received sessions of exposure to CMOS and control group without exposure to CMOS. This study was conducted on hospitalized patients suffering from anxiety and depression. The improvement of the global Hospital Anxiety and Depression (HAD) score being the primary end-point, was completed before and after 3 sessions of CMOS treatment over a period of 10 days. The secondary objective is to evaluate the quality of life, by using the EQ-5D questionnaire which covers mobility, autonomy, usual activities, pain/discomfort, and anxiety/depression. Additionally, patient satisfaction was measured for the two groups. Results The patient outcomes in the experimental group treated with CMOS demonstrated notable improvements. The variation in the Hospital Anxiety and Depression (HAD) scores before and after treatment showed a significant decrease (p < 0.001). Similarly, the quality of life, as measured by the EQ-5D questionnaire, exhibited significant enhancement (p = 0.004). Conversely, in the control group, no significant improvement in either anxiety and depression symptoms or quality of life. Throughout the study, sessions were well tolerated, and there were no reports of serious side effects in either group. Conclusions The cardiologic magnetic and optical emissions provided by the CMOS device subjectively improved the quality of life in cancer patients receiving systemic treatment compared to those receiving sham stimulation. A prospective randomized study using a larger patient sample could bring more robust results. More research is needed to understand potential positives effects of low frequencies/heart-like electromagnetic waves in treatment of cancer-related fatigue.

IMMU-22. TWIST1-MEDIATED ENDOTHELIAL PLASTICITY DRIVES GLIOBLASTOMA RESISTANCE TO CAR T IMMUNOTHERAPY

Abstract Glioblastoma (GBM) is the most common and most aggressive malignant primary brain tumor in adults. Among the most lethal human malignancies, GBM is highly resistant to cytotoxic treatments and molecularly targeted therapies, and also generally refractory to T cell–based immunotherapies, largely due to their immunologically cold nature, i.e., characterized by a paucity of tumor T cell infiltrates that result from the immunosuppressive microenvironment. Here, we identify a distinct mechanism driven by spatiotemporal interaction of leukocytes with tumor stromal cells, namely, mesenchymal-like population of endothelial cells (ECs) form an immunosuppressive vascular niche that regulates macrophage polarization and induces GBM resistance to CAR T immunotherapy. Our single-cell transcriptome analyses of human and mouse GBM tumors identify a subpopulation of ECs acquire robust immunosuppressive phonotypes to drive alternative macrophage polarization. These ECs are spatially localized proximately to immunosuppressive macrophages and selectively express Twist1. Furthermore, we reveal a Twist1/SATB1-mediated sequential transcriptional activation mechanism, through which Twist1+ tumor ECs produce osteopontin to locally promote immunosuppressive macrophage phenotypes. Genetic or pharmacological ablation of Twist1 reverses macrophage-mediated immunosuppression and enhances T cell infiltration and activation, leading to reduced GBM growth and extended mouse survival. Importantly, pharmacological inhibition and lipid nanoparticle-mediated targeted inactivation of Twist1 overcome GBM resistance to Egfrviii CAR T cell immunotherapy. Thus, these findings uncover a spatially restricted mechanism controlling vasculature-mediated tumor immunity and suggest that targeting endothelial Twist1 may offer exciting opportunities for GBM immunotherapy.

Origins and impact of extrachromosomal DNA

Extrachromosomal DNA (ecDNA) is a major contributor to treatment resistance and poor outcome for patients with cancer1,2. Here we examine the diversity of ecDNA elements across cancer, revealing the associated tissue, genetic and mutational contexts. By analysing data from 14,778 patients with 39 tumour types from the 100,000 Genomes Project, we demonstrate that 17.1% of tumour samples contain ecDNA. We reveal a pattern highly indicative of tissue-context-based selection for ecDNAs, linking their genomic content to their tissue of origin. We show that not only is ecDNA a mechanism for amplification of driver oncogenes, but it also a mechanism that frequently amplifies immunomodulatory and inflammatory genes, such as those that modulate lymphocyte-mediated immunity and immune effector processes. Moreover, ecDNAs carrying immunomodulatory genes are associated with reduced tumour T cell infiltration. We identify ecDNAs bearing only enhancers, promoters and lncRNA elements, suggesting the combinatorial power of interactions between ecDNAs in trans. We also identify intrinsic and environmental mutational processes linked to ecDNA, including those linked to its formation, such as tobacco exposure, and progression, such as homologous recombination repair deficiency. Clinically, ecDNA detection was associated with tumour stage, more prevalent after targeted therapy and cytotoxic treatments, and associated with metastases and shorter overall survival. These results shed light on why ecDNA is a substantial clinical problem that can cooperatively drive tumour growth signals, alter transcriptional landscapes and suppress the immune system.

Tailoring metabolic activity assays for tumour-engineered 3D models

Monitoring cell behaviour in hydrogel-based 3D models is critical for assessing their growth and response to cytotoxic treatment. Resazurin-based PrestoBlue and AlamarBlue reagents are frequently used metabolic activity assays when determining cell responses. However, both assays are largely applied to cell monolayer cultures but yet to have a defined protocol for use in hydrogel-based 3D models. The assays' performance depends on the cell type, culture condition and measurement sensitivity. To better understand how both assays perform, we grew pancreatic cancer cells in gelatin methacryloyl and collagen hydrogels and evaluated their metabolic activity using different concentrations and incubation times of the PrestoBlue and AlamarBlue reagents. We tested reagent concentrations of 4 % and 10 % and incubation times of 45 min, 2 h and 4 h. In addition, we co-cultured cancer cells together with cancer-associated fibroblasts and peripheral blood mononuclear cells in gelatin methacryloyl hydrogels and subjected them to gemcitabine and nab-paclitaxel to evaluate how both assays perform when characterising cell responses upon drug treatment. CyQuant assays were conducted on the same samples and compared to data from the metabolic activity assays. In cancer monocultures, higher reagent concentration and incubation time increased fluorescent intensity. We found a reagent concentration of 10 % and an incubation time of 2 h suitable for all cell lines and both hydrogels. In multicellular 3D cultures, PrestoBlue and AlamarBlue assays detected similar cell responses upon drug treatment but overestimated cell growth. We recommend to assess cell viability and growth in conjunction with CyQuant assays that directly measure cell functions.

Dynamin-1 is a potential mediator in cancer-related cognitive impairment

Dynamin-1 (DNM1) is crucial for synaptic activity, neurotransmission, and associative memory, positioning it as a potential biomarker of cancer-related cognitive impairment (CRCI), a neurological consequence of cancer treatment characterized by memory loss, poor concentration, and impaired executive function. Through a stepwise approach, this study investigated the role of DNM1 in CRCI pathogenesis, incorporating both human data and animal models. The human study recruited newly diagnosed, chemotherapy-naïve adolescent and young adult cancer and non-cancer controls to complete a cognitive instrument (FACT-Cog) and blood draws for up to three time points. Following that, a syngeneic young-adult WT (C57BL/6) female mouse model of breast cancer chemobrain was developed to study DNM1 expression in the hippocampus. Samples from eighty-six participants with 30 adolescent and young adult (AYA) cancer and 56 non-cancer participants were analyzed. DNM1 levels were 32 ​% lower (P ​= ​0.041) among cancer participants compared to non-cancer prior to treatment. After receiving cytotoxic treatment, cognitively impaired cancer patients were found to have 46 ​% lower DNM1 levels than those without impairment (P ​= ​0.049). In murine breast cancer-bearing mice receiving chemotherapy, we found a greater than 40 ​% decline (P ​< ​0.0001) in DNM1 immunoreactivity in the hippocampal CA1 and CA3 subregions concurrent with a deterioration in spatial recognition memory (P ​< ​0.02), compared to control mice without exposure to cancer and chemotherapy. Consistently observed in both human and animal studies, the downregulation of DNM1 is linked with the onset of CRCI. DNM1 might be a biomarker and therapeutic target for CRCI.

Predicting chemotherapy-induced thrombotoxicity by NARX neural networks and transfer learning

BackgroundThrombocytopenia is a common side effect of cytotoxic chemotherapies, which is often dose-limiting. Predicting an individual’s risk is of high clinical importance, as otherwise, a small subgroup of patients limits dosages for the overall population for safety reasons.MethodsWe aim to predict individual platelet dynamics using non-linear auto-regressive networks with exogenous inputs (NARX). We consider different architectures of the NARX networks, namely feed-forward networks (FNN) and gated recurrent units (GRU). To cope with the relative sparsity of individual patient data, we employ transfer learning (TL) approaches based on a semi-mechanistic model of hematotoxicity. We use a large data set of patients with high-grade non-Hodgkin’s lymphoma to learn the respective models on an individual scale and to compare prediction performances with that of the semi-mechanistic model.ResultsOf the examined network models, the NARX with GRU architecture performs best. In comparison to the semi-mechanistic model, the network model can result in a substantial improvement of prediction accuracy for patients with irregular dynamics, given well-spaced measurements. TL improves individual prediction performances.ConclusionNARX networks can be utilized to predict an individual’s thrombotoxic response to cytotoxic chemotherapy treatment. For reasonable model learning, we recommend at least three well-spaced measurements per cycle: at baseline, during the nadir phase and during the recovery phase. We aim at generalizing our approach to other treatment scenarios and blood lineages in the future.

Surgical treatment of invasive pulmonary fungal infections in immunocompromised pediatric patients: Aspergillus spp. and other emerging fungi.

Invasive Pulmonary Fungal Infections (IPFIs) represent a diagnostic and therapeutic challenge. The exact role of surgery is not well defined. This study analyzes our experience with surgical treatment of IPFI in immunocompromised pediatric patients and, secondarily, compares IPFI caused by Aspergillus spp. with other fungal infections. This is a retrospective review (2000-2019) of patients with IPFI surgically treated at our pediatric institution. Statistical analysis was used to compare data between Aspergillus spp. and non-Aspergillus IPFI. Twenty-five patients (64% female) underwent 29 lung resections. Median age at surgery was 7.19years (1.63-19.14). The most frequent underlying condition (64%) was acute leukemia. Surgical indications included persistence or worsening of symptoms and pathological image findings (52%) or asymptomatic suspicious lesions in patients scheduled for intensive cytotoxic treatments or hematopoietic stem cell transplantation (48%). All patients underwent atypical lung resections, except one lobectomy. Aspergillus spp. was the most frequently isolated pathogen (68%). Follow-up was 4.07years (0.07-18.07). Surgery-related mortality was 0%, but 4 patients died in the 100days following surgery (2 due to disseminated fungal infection); the remaining 21 did not show signs of IPFI recurrence. Non-specific consolidations on CT scan were more frequent in non-Aspergillus IPFI (p < 0.05). Surgical treatment of IPFI should be considered as a part of the treatment in selected pediatric immunocompromised patients, and it may have both diagnostic and therapeutic advantages over non-surgical management. When there is clinical suspicion of IPFI but CT scan shows unspecific alterations, the possibility of a non-Aspergillus IPFI should be considered.

Myeloid neoplasm post cytotoxic treatment in patients with multiple myeloma.

Myeloid neoplasm post cytotoxic treatment in patients with multiple myeloma.

A Novel Compound from the Phenylsulfonylpiperazine Class: Evaluation of In Vitro Activity on Luminal Breast Cancer Cells.

Breast cancer (BC) is the most common cancer in women, and is characterized by its histological and molecular heterogeneity. Luminal BC is an estrogen receptor-positive subtype, with varied clinical courses. Although BC patients are eligible for hormone therapy, both early and late relapses still occur, and thus there is a demand for new cytotoxic and selective treatment strategies for these patients. In the present study, inspired by the structure of phenylsulfonylpiperazine, a series of 20 derivatives were tested in bioassays against MCF7, MDA-MB-231 and MDA-MB-453 BC cells to discover new hit compounds. After 48 h of treatment, 12 derivatives impaired cell viability and presented significant IC50 values against at least one of the tumor lineages. Overall, the luminal BC cell line MCF7 was more sensitive to treatments. Compound 3, (4-(1H-tetrazol-1-yl)phenyl)(4-((4-chlorophenyl)sulfonyl)piperazin-1-yl)methanone, was the most promising, with IC50 = 4.48 μM and selective index (SI) = 35.6 in MCF7 cells. Compound 3 also presented significant antimigratory and antiproliferative activities against luminal BC cells, possibly by affecting the expression of genes involved in the epithelial-mesenchymal transition mechanism, upregulating E-Cadherin transcripts (CDH1). Our findings suggest that phenylsulfonylpiperazine derivatives are potential candidates for the development of new therapies, especially those targeting luminal BC.

Aging-related biomarkers in testicular cancer survivors after different oncologic treatments.

Testicular cancer survivors (TCS) exposed to chemotherapy have an increased expression of CDKN2A/p16INK4a and a lymphocyte phenotype associated with immunosenescence. We seek to define whether the immunosenescent phenotype is associated with chemotherapy. Case-control study of TCS, disease-free ≥3 months and stratified by primary treatment modality into orchiectomy only, chemotherapy, or bone marrow transplant (BMT). Each group was compared with age-matched healthy controls (HC). We measured the relative proportions of lymphocyte subpopulations using flow cytometry, levels of C-reactive protein, and relative expression of CDKN2A/p16INK4a quantified by qPCR. We included 65 patients; 19 were treated with orchiectomy only, 35 received different doses of chemotherapy, and 11 underwent BMT. The chemotherapy and BMT groups had decreased naïve CD4 cells compared to HC. The chemotherapy group showed increased central and effector memory CD4 cells, as well as effector and terminally differentiated CD8 cells, compared to HC. Chemotherapy (chemotherapy 1.84 vs. HC 0.92; p < 0.01) and BMT (BMT 6.96 vs. HC 1.25; p < 0.005) groups had higher expression of CDKN2A/p16INK4a compared to HC. The orchiectomy group showed no significant difference with HC (orchiectomy 1.73 vs. HC 1.01; p = 0.17). CRP levels were higher in all groups when compared with HC; in the orchiectomy group, they were only marginally increased (chemotherapy 0.22 vs. HC 0.06; p < 0.01; BMT 0.26 vs. HC 0.06; p < 0.01; orchiectomy 0.09 vs. HC 0.07; p < 0.01). Among TCS, only patients exposed to cytotoxic agents developed an immunosenescent phenotype. This finding supports the attribution of this alteration to the cytotoxic treatment.

Prognostic and predictive impact of NOTCH1 in early breast cancer.

Systemic therapy plays a major part in the cure of patients with early breast cancer (eBC). However, personalized treatment concepts are required to avoid potentially harmful overtreatment. Biomarkers are pivotal for individualized therapy. The Notch signalling pathway is widely considered as a suitable prognostic or predictive marker in eBC. This study aimed primarily at assessing the relationship between NOTCH1 mRNA expression levels and histopathological features of breast cancer tumors, as well as clinical characteristics of the correspondent eBC patients. As a secondary aim, we investigated the prognostic and predictive value of NOTCH1 by assessing possible associations between NOTCH1 mRNA expression and recurrence-free interval (RFI) and overall survival after five years of observation. The relative NOTCH1 mRNA expression was determined in 414 tumour samples, using quantitative PCR in a prospective, multicenter cohort (Prognostic Assessment in Routine Application (PiA), 2009-2011, NCT01592825) of 1,270 female eBC patients. High NOTCH1 mRNA expression was detected in one-third of the tumours and was associated with negative hormone receptor status and high uPA/PAI-1 status. In addition, high NOTCH1 mRNA expression was found to be associated with more RFI related events (adjusted hazard ratio 2.1, 95% CI 1.077-4.118). Patients who received adjuvant chemotherapy and had high NOTCH1 mRNA expression in the tumour (n = 86) were three times more likely to have an RFI event (adjusted hazard ratio 3.1,95% CI 1.321-7.245, p = 0.009). In this cohort, NOTCH1 mRNA expression had a prognostic and predictive impact. Tumours with high NOTCH1 mRNA expression may be less sensitive to cytotoxic treatment and downregulation of the Notch signalling pathway (e.g. by γ-secretase inhibitors) may be valuable for eBC therapy as an individualised treatment option.

Genotype-Directed Synthetic Cytotoxicity of ATR Inhibition with Radiotherapy.

The importance of the DNA damage response in mediating effects of radiotherapy (RT) has galvanized efforts to target this pathway with radiosensitizers. Yet early clinical trials of this approach have failed to yield a benefit in unselected populations. We hypothesized that ataxia-telangiectasia mutated (Atm)-null tumors would demonstrate genotype-specific synergy between RT and an inhibitor of the DNA damage response protein ataxia-telangiectasia and Rad3-related (ATR) kinase. We investigated the synergistic potential of the ATR inhibitor (ATRi) RP-3500 and RT in two Atm-null and isogenic murine models, both in vitro and in vivo. Staining of γ-H2AX foci, characterization of the immune response via flow cytometry, and tumor rechallenge experiments were performed to elucidate the mechanism of interaction. To examine genotype specificity, we tested the interaction of ATRi and RT in a Brca1-null model. Finally, patients with advanced cancer with ATM alterations were enrolled in a phase I/II clinical trial to validate preclinical findings. Synergy between RP-3500 and RT was confirmed in Atm-null lines in vitro, characterized by an accumulation of DNA double-strand breaks. In vivo, Atm-null tumor models had higher rates of durable control with RT and ATRi than controls. In contrast, there was no synergy in tumors lacking Brca1. Analysis of the immunologic response indicated that efficacy is largely mediated by cell-intrinsic mechanisms. Lastly, early results from our clinical trial showed complete responses in patients. Genotype-directed radiosensitization with ATRi and RT can unleash significant therapeutic benefit and could represent a novel approach to develop more effective combinatorial synthetic cytotoxic RT-based treatments.

Assessment of non-classical lymphocyte populations in patients with advanced lung cancer treated with Biomodulina T following platinum-based chemotherapy

Aim: Currently, malignant diseases represent a health issue worldwide. Among these, lung cancer is of growing importance, due to its high incidence and mortality. Chemotherapy, one of the most frequently used treatments, has shown its ability to induce accelerated immunosenescence in classic and as well non-classic lymphocyte compartments, being less described in the latter. The immune restoration strategies have demonstrated their ability to reverse immunosenescence and exhaustion markers in conventional lymphocyte subpopulations after chemotherapy. However, the possible immunorestorative effect on non-classical lymphocytes has not been widely reported. The aim of this study was to evaluate the effect of chemotherapy and the administration of a thymic polypeptide factor on non-classical lymphocyte populations in patients with advanced lung cancer. Methods: Eighteen patients with advanced lung cancer, were evaluated at baseline before and after platinum-based chemotherapy (4–6 cycles). All patients could complete treatment with a thymic polypeptide factor [Biomodulina T (BT)] at the end of chemotherapy. Blood from patients was collected by venipuncture in heparinized tubes before and after chemotherapy and at the end of BT treatment to analyze the frequencies of non-classical immune subpopulations by flow cytometry. Results: Natural killer (NK), natural killer T cells (NKT), and double-positive T lymphocyte (DPT) proportions reached normal values in patients diagnosed with advanced lung cancer before receiving cytotoxic treatment. Chemotherapy did not induce modifications in the total percent of NK, NKT, and DPT populations in these patients. However, the administration of BT decreased DPTs and NK cells expressing the cluster of differentiation (CD)57 molecule, which is considered a marker of immunosenescence. Conclusions: These results suggest a lower influence of platinum-based chemotherapy on non-classical lymphocytes and the potential to generate a reconstitution of lymphocyte subpopulations in patients with advanced lung cancer by using the thymic factor BT, which reveals a new possibility for improving the response to cancer immunotherapies [Cuban Public Registry of Clinical Trial (RPCEC, https://rpcec.sld.cu/en/trials/RPCEC00000358-En) identifier: RPCEC00000358].

Monocyte-to-platelets ratio (MPR) at diagnosis is associated with inferior progression-free survival in patients with mantle cell lymphoma: a multi-center real-life survey.

Mantle cell lymphoma (MCL) pathogenesis is strongly related to the role of the tumor immune microenvironment (TIME) in which MCL cells proliferate. TIME cells can produce growth signals influencing MCL cells' survival and exert an antitumoral immune response suppression. The activity of TIME cells might be mirrored by some ratios of peripheral blood cell subpopulations, such as the monocyte-to-platelet ratio (MPR). We reviewed the clinical features of 165 consecutive MCL patients newly diagnosed and not eligible for autologous stem cell transplantation (both for age or comorbidities) who accessed two Italian Centers between 2006 and 2020. MPR was calculated using data obtained from the complete blood cell count at diagnosis before any cytotoxic treatment and correlated with PFS. Univariate analysis showed that MPR ≥ 3 was associated with inferior PFS (p = 0.02). Multivariate analysis confirmed that MPR ≥ 3, LDH > 2.5 ULN, and bone marrow involvement were significant independent variables in predicting PFS. For these reasons, MPR ≥ 3 seems the most promising prognostic factor in patients with MCL, and it could be considered a variable in new predictive models.

In Vitro Maturation of Oocytes Obtained from Ovarian Cortex Among Postpubertal Hematological Cancer Patients Undergoing Fertility Preservation.

Purpose: In vitro maturation (IVM) of oocytes obtained from ovarian tissue during ovarian tissue cryopreservation (OTC) is a technique for fertility preservation in patients with cancer obviating the need to postpone chemotherapy initiation. Little is known about IVM outcomes in hematological malignancies, especially post-chemotherapy. The purpose of this study was to evaluate the effect of cytotoxic treatment on the potential to retrieve immature oocytes and mature them in vitro and examine the association between serum inflammatory markers and these results. Methods: In this retrospective study, we evaluated inflammation markers, including B symptoms and IVM outcomes of 78 chemotherapy-naive and exposed patients diagnosed with Hodgkin lymphoma (HL), non-Hodgkin lymphoma (NHL), acute lymphoblastic leukemia (ALL), or acute myeloid leukemia (AML). Results: The mean number of oocytes found was 7.2 ± 7.2. The average number of oocytes matured by IVM was 2.8 ± 3.5, and a mean IVM rate was 32.1 ± 27.7%. All patients in the ALL and AML groups had previous exposure to chemotherapy before OTC, compared with 50.0% (7/14) and 31.9% (15/47) in the NHL and HL groups, respectively. Among patients with lymphoma, chemotherapy exposure was associated with the reduced number of retrieved oocytes (9.8 ± 7.7 vs. 5.3 ± 5.7 oocytes, p = 0.049) in the HL group but not with the number of mature oocytes or IVM rate. B symptoms were not associated with IVM outcomes. Lymphocyte count (ß = 1.584; p = 0.038) and lactate dehydrogenase (ß = 0.009; p = 0.043) were the only significant parameters associated with the number of matured oocytes in a linear regression model. Conclusion: IVM is a promising assisted reproductive technology, which holds great potential for patients in need of urgent fertility preservation or those who cannot receive hormonal stimulation. Our results demonstrate the feasibility of the technique even in the presence of B symptoms and elevated inflammation markers and in patients with previous exposure to chemotherapy.

Lck Function and Modulation: Immune Cytotoxic Response and Tumor Treatment More Than a Simple Event.

Lck, a member of the Src kinase family, is a non-receptor tyrosine kinase involved in immune cell activation, antigen recognition, tumor growth, and cytotoxic response. The enzyme has usually been linked to T lymphocyte activation upon antigen recognition. Lck activation is central to CD4, CD8, and NK activation. However, recently, it has become clearer that activating the enzyme in CD8 cells can be independent of antigen presentation and enhance the cytotoxic response. The role of Lck in NK cytotoxic function has been controversial in a similar fashion as the role of the enzyme in CAR T cells. Inhibiting tyrosine kinases has been a highly successful approach to treating hematologic malignancies. The inhibitors may be useful in treating other tumor types, and they may be useful to prevent cell exhaustion. New, more selective inhibitors have been documented, and they have shown interesting activities not only in tumor growth but in the treatment of autoimmune diseases, asthma, and graft vs. host disease. Drug repurposing and bioinformatics can aid in solving several unsolved issues about the role of Lck in cancer. In summary, the role of Lck in immune response and tumor growth is not a simple event and requires more research.

Enhancing Dendritic Cell Cancer Vaccination: The Synergy of Immune Checkpoint Inhibitors in Combined Therapies.

Dendritic cell (DC) cancer vaccines are a promising therapeutic approach, leveraging the immune system to fight tumors. These vaccines utilize DCs' ability to present tumor-associated antigens to T cells, triggering a robust immune response. DC vaccine development has progressed through three generations. The first generation involved priming DCs with tumor-associated antigens or messenger RNA outside the body, showing limited clinical success. The second generation improved efficacy by using cytokine mixtures and specialized DC subsets to enhance immunogenicity. The third generation used blood-derived DCs to elicit a stronger immune response. Clinical trials indicate that cancer vaccines have lower toxicity than traditional cytotoxic treatments. However, achieving significant clinical responses with DC immunotherapy remains challenging. Combining DC vaccines with immune checkpoint inhibitors (ICIs), such as anticytotoxic T-lymphocyte Antigen 4 and antiprogrammed death-1 antibodies, has shown promise by enhancing T-cell responses and improving clinical outcomes. These combinations can transform non-inflamed tumors into inflamed ones, boosting ICIs' efficacy. Current research is exploring new checkpoint targets like LAG-3, TIM-3, and TIGIT, considering their potential with DC vaccines. Additionally, engineering T cells with chimeric antigen receptors or T-cell receptors could further augment the antitumor response. This comprehensive strategy aims to enhance cancer immunotherapy, focusing on increased efficacy and improved patient survival rates.

Flow cytometry-based quantitative analysis of cellular protein expression in apoptosis subpopulations: A protocol

Flow cytometry techniques utilizing dual staining with annexin V and propidium iodide (PI) provide a robust method for quantitatively analyzing apoptosis induction. Annexin V binds phosphatidylserine exposed on the outer leaflet of the plasma membrane during early apoptosis, while PI permeates late apoptotic/necrotic cells. Simultaneous staining allows differentiation of viable, early apoptotic, and late apoptotic/necrotic populations. This approach can be enhanced by using fluorochrome-conjugated antibodies to stain specific proteins, enabling the simultaneous tracking of protein expression changes in defined cell subpopulations during apoptosis. This multiparametric approach provides key insights into signaling regulation and the mechanisms underlying the apoptotic response to cytotoxic treatments. Here we present a protocol that combines annexin V-FITC/PI staining with APC-conjugated antibody labeling in MDA-MB-231 breast cancer cells treated with doxorubicin. This protocol enables both the quantitative assessment of apoptosis induction and the tracking of decreased CD44 expression from viable to apoptotic cells. This protocol also provides guidelines for appropriate filter selection, compensation controls, gating strategies, and troubleshooting. This robust protocol holds significant potential for elucidating signaling networks involved in apoptosis and therapeutic resistance across various cellular models.

Gene regulatory network topology governs resistance and treatment escape in glioma stem-like cells.

Poor prognosis and drug resistance in glioblastoma (GBM) can result from cellular heterogeneity and treatment-induced shifts in phenotypic states of tumor cells, including dedifferentiation into glioma stem-like cells (GSCs). This rare tumorigenic cell subpopulation resists temozolomide, undergoes proneural-to-mesenchymal transition (PMT) to evade therapy, and drives recurrence. Through inference of transcriptional regulatory networks (TRNs) of patient-derived GSCs (PD-GSCs) at single-cell resolution, we demonstrate how the topology of transcription factor interaction networks drives distinct trajectories of cell-state transitions in PD-GSCs resistant or susceptible to cytotoxic drug treatment. By experimentally testing predictions based on TRN simulations, we show that drug treatment drives surviving PD-GSCs along a trajectory of intermediate states, exposing vulnerability to potentiated killing by siRNA or a second drug targeting treatment-induced transcriptional programs governing nongenetic cell plasticity. Our findings demonstrate an approach to uncover TRN topology and use it to rationally predict combinatorial treatments that disrupt acquired resistance in GBM.

Consensus molecular subtypes (CMS) as prognostic and predictive biomarkers of RAS wild-type (WT) metastatic colorectal cancer (mCRC): Pooled analysis of the randomized trials FIRE-1, FIRE-3, XELAVIRI, and PanaMa.

3529 Background: CMS were associated with prognostic relevance in RAS WT mCRC, while their role as predictive biomarker is debatable. We aimed to assess the predictive impact of CMS on treatment with anti-EGFR vs. anti-VEGF antibodies vs. cytotoxic treatment alone in a pooled analysis. Methods: Available CMS data (called by predictedCMS method) of the randomized controlled trials FIRE-1 (FUFIRI vs. mIrOx); FIRE-3 (FOLFIRI+ cetuximab vs. bevacizumab), XELAVIRI (sequential vs. initially combined FOLFIRI+bevacizumab) and PanaMa (FOLFOX+panitumumab followed by FU/FA +/- panitumumab) of RAS WT mCRC were included. Non-evaluable CMS were excluded. Kaplan-Meier estimated overall survival (OS) and progression-free survival (PFS). Uni- and multivariate Cox regression analysis (including all baseline characteristics) was used to calculate hazard ratio (HR) and 95% confidence interval (95% CI). Results: 1147 tumors had available CMS data and 746 (65.0%) were RAS wild-type (WT): CMS1, n=89; CMS2, n=346; CMS3, n=71; CMS4, n=240. CMS were significant prognostic biomarkers in terms of PFS (median months, CMS1, 6.7; CMS2, 11.1; CMS3, 8.1; CMS4, 10.0, P&lt;0.001) and OS (median months: CMS1, 14.8; CMS2, 28.7; CMS3, 19.5; CMS4, 26.5; P&lt;0.001). CMS remained significant in a multivariate backward elimination Cox regression analysis including all baseline characteristic variables and BRAF status with regard to PFS ( P=0.03) and OS ( P=0.04) Interaction of CMS and treatment was significant regarding OS ( P&lt;0.001) and PFS ( P=0.001). The longest OS was observed using anti-VEGF antibodies in CMS1 and anti-EGFR antibodies in CMS2 or CMS4 RAS WT tumors (Table). Conclusions: CMS were confirmed as prognostic biomarkers and might contain predictive information for the choice of anti-EGFR or anti-VEGF antibodies in RAS WT mCRC. Prospective validation remains mandatory. [Table: see text]