Evidence for increased immune mobilization in First Episode Psychosis compared with the prodromal stage in males

The aim of the study was to gauge both the immune and neuroendocrine function in Ultra High Risk for psychosis (UHR) subjects and compare them with a cohort presenting with First Episode Psychosis (FEP). We recruited two groups, the first group consisted of 12 UHR males and the second of 25 males with FEP. We measured serum cortisol levels at 08:00, 12:00, 18:00 with their Area Under Curve with respect to the ground (AUCg) and the increase (AUCi) and we measured serum cytokines levels, Interleukin-1a, IL-1a, IL-2, IL-4,IL-5,IL-6,IL-8, IL-10,IL-12, IL-17a, Tumor Necrosis Factor-a (TNF-a), Interferon-γ (IFN-γ). Dexamethasone Suppression Test (DST) was also performed. The results suggest higher levels of both pro-inflammatory (TNF-a, IL-2, IL-12, IFN-γ) and anti-inflammatory (IL-10) cytokines in the FEP group compared with the UHR counterparts. Regarding the HPA axis function, the prodromal subjects showed a trend for higher AUCg and AUCi change/decrease cortisol levels. On the contrary, the DST results did not differ between the groups. No significant associations were demonstrated within each group among cytokines, cortisol and psychopathology. The findings favor a hypothesis of a relatively increased mobilization of both the pro- and anti-inflammatory cytokine networks, in FEP compared with that of UHR subjects

SRPK1 maintains acute myeloid leukemia through effects on isoform usage of epigenetic regulators including BRD4.

We recently identified the splicing kinase gene SRPK1 as a genetic vulnerability of acute myeloid leukemia (AML). Here, we show that genetic or pharmacological inhibition of SRPK1 leads to cell cycle arrest, leukemic cell differentiation and prolonged survival of mice transplanted with MLL-rearranged AML. RNA-seq analysis demonstrates that SRPK1 inhibition leads to altered isoform levels of many genes including several with established roles in leukemogenesis such as MYB, BRD4 and MED24. We focus on BRD4 as its main isoforms have distinct molecular properties and find that SRPK1 inhibition produces a significant switch from the short to the long isoform at the mRNA and protein levels. This was associated with BRD4 eviction from genomic loci involved in leukemogenesis including BCL2 and MYC. We go on to show that this switch mediates at least part of the anti-leukemic effects of SRPK1 inhibition. Our findings reveal that SRPK1 represents a plausible new therapeutic target against AML

Cardiovascular risk in systemic sclerosis: Micro- and Macro-vascular involvement

Systemic sclerosis (SSc) is an autoimmune disease characterized by fibrosis of multiple organs (kidney, heart, lung, gastrointestinal tract, and skin), endothelial damage leading to vascular disease, and autoantibody production. Although the microvascular disease is well-understood, mechanistic insights explaining the presence and extent of macrovascular disease in SSc patients has been a matter of intense debate, especially in the past few years. Patients with systemic sclerosis have an increased risk for atherosclerotic cardiovascular disease (CVD), possibly mediated by inflammatory and fibrotic mechanisms. The excess cardiovascular risk in SSc is suggested by increased arterial stiffness, carotid intima thickening, and reduced flow-mediated dilatation. Given the involvement of the microvasculature, the differentiation between primary and ischemic heart disease is difficult. There is a relative paucity of data regarding clinical and preclinical CVD in SSc. Therefore, large cohort studies are required to clarify whether CVD is predominantly associated with atherosclerosis or microvascular involvement. The aim of this review is to discuss primary and ischemic heart disease and their contribution to CVD in SSc