Humoral and cellular correlates of a novel immune-related adverse event and its treatment

Immune-related adverse events (irAE) may affect almost any organ system and occur at any point during treatment with immune checkpoint inhibitors (ICI). We present a patient with advanced lung cancer receiving antiprogrammed death 1 checkpoint inhibitor who developed a delayed-onset visual irAE treated with corticosteroids. Through assessment of longitudinal biospecimens, we analyzed serial autoantibodies, cytokines, and cellular populations. Months after ICI initiation and preceding clinical toxicity, the patient developed broad increases in cytokines (most notably interleukin-6 (IL-6), interferon-γ (IFNγ), C-X-C motif chemokine ligand 2 (CXCL2), and C–C motif chemokine ligand 17 (CCL17)), autoantibodies (including anti-angiotensin receptor, α-actin, and amyloid), CD8 T cells, and plasmablasts. Such changes were not observed in healthy controls and ICI-treated patients without irAE. Administration of corticosteroids resulted in immediate and profound decreases in cytokines, autoantibodies, and inflammatory cells. This case highlights the potential for late-onset changes in humoral and cellular immunity in patients receiving ICI. It also demonstrates the biologic effects of corticosteroids on these parameters. Application of humoral and cellular immune biomarkers across ICI populations may inform toxicity monitoring and management.

USP Standardized Mixtures of Bovine, Ovine and Porcine Heparin Exhibit Comparable Biologic Effects to Referenced Single Sourced Heparins and May be Interchangeable,

Introduction: Unfractionated heparin (UFH) is the first line anticoagulant for the management of medical indications. UFH complexes with antithrombin to produce strong inhibition of thrombin and factor Xa. The UFHs are standardized using USP compliant amidolytic anti-Xa and IIa methods in defined conditions. Clinically used UFH is solely sourced from porcine mucosal tissue. Because of the shortage of porcine tissue and the African Swine Fever, the supply chain of this anticoagulant is compromised. Thus, there is a need for resourcing of this anticoagulant. Bovine and ovine mucosal sources represent alternate material for production of UFH. Previous studies have shown that bovine and ovine UFH exhibit anticoagulant effects which can be standardized by using the USP method. Additionally, the standardized heparins from various sources can be blended and their potency can be adjusted to exhibit comparable effects as the single sourced UFH. The purpose of this study is to evaluate the pharmacologic profile of the blended heparin and compare these activities to that of the single sourced porcine, ovine and bovine heparins. Methods: Two groups of heparins were evaluated in this study, porcine, ovine, bovine, and the blended heparin in gravimetric measurements (ug/ml) and these same four in potency adjusted measurements (U/ml). The pharmacologic profiles of the heparins in this study were investigated via global anticoagulant assays and anti-protease assays performed in plasma. Clot based assays such as the activated partial thromboplastin time (aPTT) and thrombin time (TT) were used to study the anticoagulant effects of the single source and blended heparins. The amidolytic anti-Xa and IIa assays were used to assess the inhibitory effects of these heparins on these proteases. USP compliant anti-Xa and IIa assays were used to determine potencies of the various heparins. Protamine sulfate (PS) neutralization studies were performed to evaluate the reversal of anticoagulant effects in each of the heparins. Results: The aPTT assay showed that at final concentrations of 5 ug/ml and 2.5 ug/ml porcine heparin significantly (p < .01) prolonged the aPTT compared to ovine, bovine, and blended heparins. When studied with potency adjusted heparins, all heparins demonstrated comparable aPTT values at all concentrations (U/ml). The TT assay showed that porcine and ovine heparins prolonged the TT at 1.25 ug/ml compared to bovine and blended heparins. When studied with potency adjusted heparins, all heparins demonstrated comparable TT values at all concentrations (U/ml). The anti-Xa assay showed that at all final concentrations between 10 ug/ml and 0.625 ug/ml porcine, ovine, and blended heparins produced significantly (p <.001) stronger Xa inhibition than bovine heparin. When studied with potency adjusted heparins, all heparins demonstrated comparable anti-Xa inhibition at all concentrations (U/ml). The anti-IIa assay showed that at final concentrations 2.5 ug/ml, 1.25 ug/ml, and 0.625 ug/ml porcine and ovine heparins produced significantly (p < .05) stronger IIa inhibition than bovine heparin. When studied with potency adjusted heparins, all heparins demonstrated comparable anti-IIa inhibition at all concentrations (U/ml). The USP compliant anti-Xa assay with gravimetric heparins showed potencies of 201, 201, 150, and 184 U for porcine, ovine, bovine, and blended heparins respectively. The USP compliant anti-Xa assay with potency adjusted heparins showed comparable potencies for all four heparins. The USP compliant anti-IIa assay with gravimetric heparins showed potencies of 204, 196, 127, and 167 U for porcine, ovine, bovine, and blended heparins respectively. The USP compliant anti-IIa assay with potency adjusted heparins showed comparable potencies for all four heparins. The protamine sulfate neutralization studies demonstrated complete neutralization at all concentrations for all of the potency adjusted heparins in the aPTT, TT, anti-Xa, and anti-IIa assays. Conclusion: These studies support the hypothesis that a blended heparin product from bovine, ovine, and porcine tissue, when standardized in USP unit-equivalent proportions, exhibits a comparable anticoagulant profile to the single species heparins. These findings suggest that there is a potential for development of blended heparin to stabilize supply chain of this important anticoagulant and warrant clinical validation. Figure 1 Figure 1. Disclosures No relevant conflicts of interest to declare.

Molecular Characterization of Membrane Steroid Receptors in Hormone-Sensitive Cancers

Cancer is one of the most common causes of death worldwide, and its development is a result of the complex interaction of genetic factors, environmental cues, and aging. Hormone-sensitive cancers depend on the action of one or more hormones for their development and progression. Sex steroids and corticosteroids can regulate different physiological functions, including metabolism, growth, and proliferation, through their interaction with specific nuclear receptors, that can transcriptionally regulate target genes via their genomic actions. Therefore, interference with hormones’ activities, e.g., deregulation of their production and downstream pathways or the exposition to exogenous hormone-active substances such as endocrine-disrupting chemicals (EDCs), can affect the regulation of their correlated pathways and trigger the neoplastic transformation. Although nuclear receptors account for most hormone-related biologic effects and their slow genomic responses are well-studied, less-known membrane receptors are emerging for their ability to mediate steroid hormones effects through the activation of rapid non-genomic responses also involved in the development of hormone-sensitive cancers. This review aims to collect pre-clinical and clinical data on these extranuclear receptors not only to draw attention to their emerging role in cancer development and progression but also to highlight their dual role as tumor microenvironment players and potential candidate drug targets.

Local Therapies and Modulation of Tumor Surrounding Stroma in Malignant Pleural Mesothelioma: A Translational Approach

Malignant Pleural Mesothelioma (MPM) is a rare and aggressive neoplasm of the pleural mesothelium, mainly associated with asbestos exposure and still lacking effective therapies. Modern targeted biological strategies that have revolutionized the therapy of other solid tumors have not had success so far in the MPM. Combination immunotherapy might achieve better results over chemotherapy alone, but there is still a need for more effective therapeutic approaches. Based on the peculiar disease features of MPM, several strategies for local therapeutic delivery have been developed over the past years. The common rationale of these approaches is: (i) to reduce the risk of drug inactivation before reaching the target tumor cells; (ii) to increase the concentration of active drugs in the tumor micro-environment and their bioavailability; (iii) to reduce toxic effects on normal, non-transformed cells, because of much lower drug doses than those used for systemic chemotherapy. The complex interactions between drugs and the local immune-inflammatory micro-environment modulate the subsequent clinical response. In this perspective, the main interest is currently addressed to the development of local drug delivery platforms, both cell therapy and engineered nanotools. We here propose a review aimed at deep investigation of the biologic effects of the current local therapies for MPM, including cell therapies, and the mechanisms of interaction with the tumor micro-environment.

Influence of Seasonal Vitamin D Changes on Clinical Manifestations of Rheumatoid Arthritis and Systemic Sclerosis

Vitamin D [1,25(OH)2D—calcitriol] is basically a steroid hormone with pleiotropic biologic effects, and its impact on the regulation of immune system may influence several clinical conditions. Calcidiol (25OHD), as precursor of calcitriol, derives, for the most part (80%), from cutaneous cholesterol (7-dehydrocholesterol) under the action of UV-B (sunlight). Consequently, serum concentrations fluctuate during the year following the circannual rhythm of sun exposition. We will update about the available evidence regarding the complex influence of seasonal vitamin D changes on two different chronic connective tissue diseases, namely rheumatoid arthritis (RA) and systemic sclerosis (SSc). Notably, RA is an emblematic model of autoimmune disease with prevalent joint inflammatory features, while SSc is mainly an autoimmune progressive pro-fibrotic disease. However, in both conditions, low serum concentrations of 25OHD are involved in the pathogenesis of the diseases, and emerging data report their impact on clinical manifestations.

Pathogenic Roles of S100A8 and S100A9 Proteins in Acute Myeloid and Lymphoid Leukemia: Clinical and Therapeutic Impacts

Deregulations of the expression of the S100A8 and S100A9 genes and/or proteins, as well as changes in their plasma levels or their levels of secretion in the bone marrow microenvironment, are frequently observed in acute myeloblastic leukemias (AML) and acute lymphoblastic leukemias (ALL). These deregulations impact the prognosis of patients through various mechanisms of cellular or extracellular regulation of the viability of leukemic cells. In particular, S100A8 and S100A9 in monomeric, homodimeric, or heterodimeric forms are able to modulate the survival and the sensitivity to chemotherapy of leukemic clones through their action on the regulation of intracellular calcium, on oxidative stress, on the activation of apoptosis, and thanks to their implications, on cell death regulation by autophagy and pyroptosis. Moreover, biologic effects of S100A8/9 via both TLR4 and RAGE on hematopoietic stem cells contribute to the selection and expansion of leukemic clones by excretion of proinflammatory cytokines and/or immune regulation. Hence, the therapeutic targeting of S100A8 and S100A9 appears to be a promising way to improve treatment efficiency in acute leukemias.

Herpesvirus surveillance and discovery in zoo-housed ruminants

Gammaherpesvirus infections are ubiquitous in captive and free-ranging ruminants and are associated with a variety of clinical diseases ranging from subclinical or mild inflammatory syndromes to fatal diseases such as malignant catarrhal fever. Gammaherpesvirus infections have been fully characterized in only a few ruminant species, and the overall diversity, host range, and biologic effects of most are not known. This study investigated the presence and host distribution of gammaherpesviruses in ruminant species at two facilities, the San Diego Zoo and San Diego Zoo Safari Park. We tested antemortem (blood, nasal or oropharyngeal swabs) or postmortem (internal organs) samples from 715 healthy or diseased ruminants representing 96 species and subspecies, using a consensus-based herpesvirus PCR for a segment of the DNA polymerase (DPOL) gene. Among the 715 animals tested, 161 (22.5%) were PCR and sequencing positive for herpesvirus, while only 11 (6.83%) of the PCR positive animals showed clinical signs of malignant catarrhal fever. Forty-four DPOL genotypes were identified of which only 10 have been reported in GenBank. The data describe viral diversity within species and individuals, identify host ranges of potential new viruses, and address the proclivity and consequences of interspecies transmission during management practices in zoological parks. The discovery of new viruses with wide host ranges and presence of co-infection within individual animals also suggest that the evolutionary processes influencing Gammaherpesvirus diversity are more complex than previously recognized.

Role of Uremic Toxins in Early Vascular Ageing and Calcification

In patients with advanced chronic kidney disease (CKD), the accumulation of uremic toxins, caused by a combination of decreased excretion secondary to reduced kidney function and increased generation secondary to aberrant expression of metabolite genes, interferes with different biological functions of cells and organs, contributing to a state of chronic inflammation and other adverse biologic effects that may cause tissue damage. Several uremic toxins have been implicated in severe vascular smooth muscle cells (VSMCs) changes and other alterations leading to vascular calcification (VC) and early vascular ageing (EVA). The above mentioned are predominant clinical features of patients with CKD, contributing to their exceptionally high cardiovascular mortality. Herein, we present an update on pathophysiological processes and mediators underlying VC and EVA induced by uremic toxins. Moreover, we discuss their clinical impact, and possible therapeutic targets aiming at preventing or ameliorating the harmful effects of uremic toxins on the vasculature.