👤 Giacomo Pasquini

Sleep deprivation (SD) impairs information processing through alterations of prefrontal cortex (PFC) function, yet the molecular underpinnings of this process remain poorly understood. We previously showed that SD disrupts sensorimotor gating by elevating prefrontal levels of the neurosteroid allopregnanolone (AP), a positive allosteric modulator of GABA-A receptors. Here we identify a complementary, mechanistically independent process whereby SD alters GABA-A currents in the PFC of mice and rats. SD reduced membrane expression of the chloride exporter KCC2, leading to intracellular chloride accumulation and a depolarizing shift in GABA-A receptor reversal potential that weakened GABAergic inhibition. Pharmacological normalization of chloride homeostasis with bumetanide fully rescued SD-induced deficits in sensorimotor gating and information encoding. SD also upregulated BDNF, and intra-PFC antagonism of its receptor TrkB restored KCC2 expression and normalized information processing, identifying BDNF-TrkB signaling as an upstream driver of chloride dysregulation. Notably, blocking AP synthesis rescued behavioral deficits without correcting chloride imbalance, confirming mechanistic independence. Finally, combined administration of AP and a KCC2 blocker produced information-processing deficits akin to those induced by SD. These findings identify TrkB-dependent disruption of prefrontal chloride homeostasis as a druggable mechanism underlying sleep loss-induced cognitive dysfunction. Show less

We show an exceptional case of a right aortic arch (RAA) in a patient with DiGeorge syndrome, breaking the rule that the first epiaortic vessel courses to the contralateral side of the aortic arch. This is a RAA with an aberrant left subclavian artery (ALSA) and an isolated left carotid artery (ILCA) arising from the left pulmonary artery (LPA) via a left anterior ductus arteriosus (LADA), along with bilateral ductus arteriosus. This unique case highlights educational pitfalls in using a simple rule to define arch sidedness. Although challenging, echocardiographic diagnosis of such vascular anomalies is feasible in expert hands. The color-flow and Doppler pattern of the epiaortic vessels provide important information about their arrangement and connection to the aortic arch. Bilateral ductus arteriosus is often a marker of complex vascular anomalies, which are frequently associated with genetic syndromes. Show less

Carbamyl Phosphate Synthetase I deficiency (CPSID) is a rare autosomal recessive urea cycle disorder usually characterized by potentially lethal neonatal hyperammonemia. The large (5215 bp) CPS1-cDNA, expressed only in liver and epithelial cells of intestinal mucosa, has been cloned. Until now the CPS1 genomic organization was unknown. Taking advantage of the phylogenetic lineage between the CPS1 gene of Homo sapiens and Rattus norvegicus, we determined the intron-exon organization of the human CPS1 gene. Starting from the ATG codon, the CPS I gene is organized in 38 exons spanning from 50bp to 200 bp. We also report the molecular studies on an Italian patient affected by neonatal CPSD. Two novel genetic lesions (c.1370T>G and c.2429A>G) that lead to the novel amino acid substitutions V457G and Q810R, and the known N1406T polymorphism, were detected in the patient's CPS1 RNA and in genomic DNA isolated from peripheral blood lymphocytes. The characterization of the CPS1 genomic organization will allow the identification of the genetic lesions of CPSD patients, the detection of carriers, better genetic counseling and a more certain, less invasive method of prenatal diagnosis. Show less