The primary hemostatic function of platelets has been recognized for more than a century, but increasing experimental and clinical evidences suggest that platelets are also important mediators of cancer. Cancer indeed influences platelet physiology, and activated platelets participate in each step of cancer development by promoting tumor growth, angiogenesis, metastasis, and cancer-associated thrombosis. Based on both the results of numerous experimental models addressing the involvement of platelets in cancer progression and the results of epidemiologic studies on the use of anti-platelet drugs to prevent cancer, platelets have been proposed as a potential target to reduce the short-term risk of cancer, cancer dissemination and cancer mortality. However, the cancer-associated thrombosis and the risk of bleeding due to anti-platelet drugs are not enough evaluated in experimental models. Therefore, the interesting contribution of platelets to cancer and cancer-associated thrombosis requires the standardization of preclinical and clinical models.
Background Covid-19 clinical expression is pleiomorphic, severity is related to age and comorbidities such as diabetes and hypertension, and pathophysiology involves aberrant immune activation and lymphopenia. We wondered if the myeloid compartment was affected during Covid-19 and if monocytes and macrophages could be infected by SARS-CoV-2. Methods Monocytes and monocyte-derived macrophages from Covid-19 patients and controls were infected with SARS-CoV-2, and extensively investigated with immunofluorescence, viral RNA extraction and quantification, total RNA extraction followed by reverse transcription and q-PCR using specific primers, supernatant cytokines (IL-10, TNF-α, IL-1β, IFN-β, TGF-β1 and IL-6), flow cytometry. The effect of M1- versus M2-type or no polarization prior to infection was assessed. Results SARS-CoV-2 efficiently infected monocytes and MDMs but their infection is abortive. Infection was associated with immunoregulatory cytokines secretion and the induction of a macrophagic specific transcriptional program characterized by the upregulation of M2-type molecules. In vitro polarization did not account for permissivity to SARS-CoV-2, since M1- and M2-type MDMs were similarly infected. In Covid-19 patients, monocytes exhibited lower counts affecting all subsets, decreased expression of HLA-DR, and increased expression of CD163, irrespective of severity. Conclusion SARS-CoV-2 drives monocytes and macrophages to induce host immunoparalysis for the benefit of Covid-19 progression.
Venous thromboembolism constitutes one of the main causes of death during the progression of a cancer. We previously demonstrated that tissue factor (TF)-bearing cancer cell-derived microparticles accumulate at the site of injury in mice developing a pancreatic cancer. The presence of these microparticles at the site of thrombosis correlates with the size of the platelet-rich thrombus. The objective of this study was to determine the involvement of TF expressed by cancer cell-derived microparticles on thrombosis associated with cancer. We observed that pancreatic cancer cell derived microparticles expressed TF, its inhibitor tissue factor pathway inhibitor (TFPI) as well as the integrins avb1 and avb3. In mice bearing a tumor under-expressing TF, a significant decrease in circulating TF activity associated with an increase bleeding time and a 100-fold diminished fibrin generation and platelet accumulation at the site of injury were observed. This was mainly due to the interaction of circulating cancer cell-derived microparticles expressing TFPI with activated platelets and fibrinogen. In an ectopic model of cancer, treatment of mice with Clopidogrel, an anti-platelet drug, decreased the size of the tumors and restored hemostasis by preventing the accumulation of cancer cell-derived microparticles at the site of thrombosis. In a syngeneic orthotopic model of pancreatic cancer Clopidogrel also significantly inhibited the development of metastases. Together, these results indicate that an anti-platelet strategy may efficiently treat thrombosis associated with cancer and reduce the progression of pancreatic cancer in mice.Since its first clinical description by Armand Trousseau in 1865, the association between cancer and thrombosis has been well documented. 1 Venous thromboembolism (VTE), defined as deep vein thrombosis and/or pulmonary embolism (PE), occurs in 15-20% of patients with cancer. 2 VTE constitutes one of the main causes of death during the progression of cancer (with a relative risk ranging from 4 to 7) and represents a major therapeutic issue. The risk of thrombosis is increased in patients with digestive adenocarcinoma, pancreatic adenocarcinomas, lung or ovarian cancer and acute promyelocytic leukemia. 3-5 Among these cancers, thromboembolic diseases are the second most common cause of death, accounting for 44% of deaths after the progression of the cancer itself. 6,7 Patients with cancer who develop a VTE have a lower survival rate. 8 Several studies have been performed recently to understand the cellular mechanisms involved in the development of thromboembolic events. The pathogenesis of a thrombotic state is linked to the presence of a tumor and is associated with the development of a hypercoagulant state, referred to as coagulopathy that confers numerous advantages to the cancer cells. Indeed, both the activation of the coagulation cascade and the aggregation of blood platelets around cancer cells protect these cells from the immune system and facilitate their circulation in the bloodstream and t...
Background The risk of thrombotic complications such as deep vein thrombosis (DVT) during tumor development is well known. Tumors release into circulation procoagulant microparticles (MPs) that can participate in thrombus formation following vessel injury. The importance of this MP tissue factor (TF) in the initiation of cancer-associated DVT remains uncertain. Objective To address how pancreatic cancer MPs promote DVT in vivo. Methods We combined a DVT mouse model where thrombosis is induced by flow restriction of the inferior vena cava with one of subcutaneous pancreatic cancer in C57BL/6J mice. We infused high and low TF tumor MPs to determine the importance of TF in experimental cancer-associated DVT. Results Both tumor-bearing mice and mice infused with tumor MPs submitted to 3 hours of partial flow restriction developed an occlusive thrombus; fewer than a third of the control mice did. We observed that MPs adhered to neutrophil extracellular traps (NETs), functionally important players during DVT, whereas neither P-selectin nor GPIb were required for the MP recruitment in DVT. The thrombotic phenotype induced by MP infusion was suppressed by hirudin suggesting the importance of thrombin generation. TF carried by tumor MPs was essential to promote DVT as mice infused with low TF tumor MPs had less thrombosis than mice infused with high TF tumor MPs. Conclusions TF expressed on tumor MPs contributes to the increased incidence of cancer-associated venous thrombosis in mice in vivo. These MPs may adhere to NETs formed at the site of thrombosis.
Background An unbiased approach of SARS-CoV-2-induced immune dysregulation has not been undertaken so far. We aimed to identify previously unreported immune markers able to discriminate COVID-19 patients from healthy controls and to predict mild and severe disease. Methods An observational, prospective, multicentric study was conducted in patients with confirmed COVID-19: mild/moderate (n=7) and severe (n=19). Immunophenotyping of whole blood leukocytes was performed in patients upon hospital ward or intensive care unit admission and in healthy controls (n=25). Clinically relevant associations were identified through unsupervised analysis. Results Granulocytic (neutrophil, eosinophil and basophil) markers were enriched during COVID-19 and discriminated between mild and severe patients. Increased counts of CD15 +CD16 + neutrophils, decreased granulocytic expression of integrin CD11b, and Th2-related CRTH2 downregulation in eosinophils and basophils established a COVID-19 signature. Severity was associated with the emergence of PDL1 checkpoint expression in basophils and eosinophils. This granulocytic signature was accompanied by monocyte and lymphocyte immunoparalysis. Correlation with validated clinical scores supported pathophysiological relevance. Conclusion Phenotypic markers of circulating granulocytes are strong discriminators between infected and uninfected individuals as well as between severity stages. COVID-19 alters the frequency and functional phenotypes of granulocyte subsets with the emergence of CRTH2 as a disease biomarker.
Background: Peach is a common elicitor of food allergic reactions. Peach-induced immediate reactions may occur as benign pollen-food syndromes, usually due to birch pollen-related PR-10 cross-reactivity in temperate climates, and as potentially severe primary food allergies, predominantly related to nsLTP Pru p 3 in Mediterranean regions. The newly described peach allergen Pru p 7 has gained recent attention as a potential peach allergy severity marker. Sensitization to Pru p 7 and its allergenic homologues of the gibberellin-regulated protein family occurs in areas with high Cupressaceae tree pollen exposure. Objective:We sought to investigate the distribution, clinical characteristics and molecular associations of Pru p 7 sensitization among subjects with suspected peach allergy in different regions of France. Methods: Subjects with suspected peach allergy (n = 316) were included. Diagnostic work-up was performed according to current guidelines, including open food challenge when required. IgE antibody measurements and competition experiments were performed using the ImmunoCAP assay platform. Results: Sensitization to Pru p 7 was present in 171 (54%) of all subjects in the study and in 123 of 198 (62%) diagnosed as peach allergic, more than half of whom were sensitized to no other peach allergen. Frequency and magnitude of Pru p 7 sensitization were associated with the presence of peach allergy, the clinical severity of peach-induced allergic reactions and the level of cypress pollen exposure. Cypress pollen extract completely outcompeted IgE binding to Pru p 7. Pru p 7 was extremely potent in basophil activation tests. Conclusion and Clinical Relevance: A subtype of Cupressaceae pollinosis, characterized by Pru p 7 sensitization, can be an underlying cause of severe peach allergy. K E Y W O R D S allergens and epitopes, anaphylaxis, basophil, cypress pollinosis, food allergy, IgE, immunological tests, peamaclein, Pru p 7
To date, the Covid-19 pandemic affected more than 18 million individuals and caused more than 690, 000 deaths. Its clinical expression is pleiomorphic and severity is related to age and comorbidities such as diabetes and hypertension. The pathophysiology of the disease relies on aberrant activation of immune system and lymphopenia that has been recognized as a prognosis marker. We wondered if the myeloid compartment was affected in Covid-19 and if monocytes and macrophages could be infected by SARS-CoV-2. We show here that SARS-CoV-2 efficiently infects monocytes and macrophages without any cytopathic effect. Infection was associated with the secretion of immunoregulatory cytokines (IL-6, IL-10, TGF-β) and the induction of a macrophagic specific transcriptional program characterized by the upregulation of M2-type molecules. In addition, we found that in vitro macrophage polarization did not account for the permissivity to SARS-CoV-2, since M1-and M2-type macrophages were similarly infected. Finally, in a cohort of 76 Covid-19 patients ranging from mild to severe clinical expression, all circulating monocyte subsets were decreased, likely related to massive emigration into tissues. Monocytes from Covid-19 patients exhibited decreased expression of HLA-DR and increased expression of CD163, irrespective of the clinical status. Hence, SARS-CoV-2 drives circulating monocytes and macrophages inducing immunoparalysis of the host for the benefit of Covid-19 disease progression.
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