Perisomatic Inhibition and Its Relation to Epilepsy and to Synchrony Generation in the Human Neocortex

Inhibitory neurons innervating the perisomatic region of cortical excitatory principal cells are known to control the emergence of several physiological and pathological synchronous events, including epileptic interictal spikes. In humans, little is known about their role in synchrony generation, although their changes in epilepsy have been thoroughly investigated. This paper demonstraits how parvalbumin (PV)- and type 1 cannabinoid receptor (CB1R)-positive perisomatic interneurons innervate pyramidal cell bodies, and their role in synchronous population events spontaneously emerging in the human epileptic and non-epileptic neocortex, in vitro. Quantitative electron microscopy showed that the overall, PV+ and CB1R+ somatic inhibitory inputs remained unchanged in focal cortical epilepsy. On the contrary, the size of PV-stained synapses increased, and their number decreased in epileptic samples, in synchrony generating regions. Pharmacology demonstrated—in conjunction with the electron microscopy—that although both perisomatic cell types participate, PV+ cells have stronger influence on the generation of population activity in epileptic samples. The somatic inhibitory input of neocortical pyramidal cells remained almost intact in epilepsy, but the larger and consequently more efficient somatic synapses might account for a higher synchrony in this neuron population. This, together with epileptic hyperexcitability, might make a cortical region predisposed to generate or participate in hypersynchronous events

Heart failure caused by Takayasu's arteritis in the time of COVID‐19: a case report

Abstract The case of a 35‐year‐old female with heart failure is presented, where the symptoms overlap with the heterogeneous manifestations of coronavirus disease 2019 (COVID‐19). Those similarities and a recent shift in priorities during the SARS‐CoV‐2 pandemic delayed the recognition of acute heart failure in this patient. During the differential diagnostic process, obliterative disease was discovered in the bilateral subclavian and right renal arteries, and the latter resulted in uncontrolled hypertension, which played a significant role in the development of heart failure. The aetiology of vascular alterations turned out to be Takayasu's arteritis. Diagnosing Takayasu's arteritis is typically not straightforward due to its nonspecific signs and symptoms. Therefore, it can be concluded from our case report that the rising incidence of COVID‐19 and focus on ruling out infection can potentially defer alternative, but appropriate diagnostic tests, particularly for certain conditions like rare diseases. Early identification and intervention is especially important for treating acute heart failure, whereas delay increases the risk of severe complications and mortality

Genetic variants of the HSD11B1 gene promoter may be protective against polycystic ovary syndrome

The HSD11B1 gene encodes the type 1 isoform of the 11-beta-hydroxysteroid dehydrogenase that is responsible for the regeneration of glucocorticoids from hormonally-inactive metabolites into active forms in a tissue-specific manner. Altered activity of the enzyme, and certain genetic variants of the HSD11B1 gene, has been associated with various metabolic morbidities. In this study, our aim was to systematically test the potential role of the HSD11B1's single nucleotide polymorphisms (SNPs) in polycystic ovary syndrome (PCOS). Nine HSD11B1 SNPs were selected and genotyped using Taqman SNP assays on real-time PCR in a group of PCOS patients (n = 58) and in age-matched healthy controls (n = 64). Genotype-phenotype correlations were determined and haplotype analysis was performed. An in silico prediction for potential transcription factor binding sites was also performed. Of the 5 promoter SNPs, 3 (rs760951; rs4844880; rs3753519) were less frequent in the PCOS group compared to healthy controls. SNPs rs4844880 and rs3753519 were in a complete linkage and the mutant haplotype (AA) was less frequent in the PCOS group. No association between HSD11B1 variants and clinical, pathological findings was observed in patients, but in healthy women the rs4844880 and the AA haplotype were associated with higher levels of homeostasis model assessment of beta cell function. The polymorphic form of the rs4844880 was predicted to bind Pbx-1. Promoter SNPs of the HSD11B1 gene might exert a potential genetic protective role against the development of PCOS, possibly via their beneficial effect on carbohydrate homeostasis due to facilitation of insulin efflux from pancreatic beta-cells