👤 Mariana Rey

We report on the study of itinerant magnetism of lattice-trapped magnetic atoms, driven by magnetic dipole-dipole interactions, in the low-entropy and close-to-unit filling regime. We have used advanced dynamical decoupling techniques to efficiently suppress the sensitivity to magnetic field fluctuations. We have thus measured the spin coherence of an itinerant spin 3 Bose dipolar gas throughout a quantum phase transition from a superfluid phase to a Mott insulating phase. In the superfluid phase, a metastable ferromagnetic behavior is observed below a dynamical instability that occurs at lattice depths below the phase transition. In the insulating phase, the thermalization toward a paramagnetic state is driven by an interplay between intersite and superexchange interactions. Show less

Disorders of pubertal onset and progression are a common cause for referral to paediatric endocrinologists, with delayed puberty in males being particularly frequent. Pubertal development depends on the hypothalamic-pituitary-testicular (HPT) axis, which is established during fetal life and undergoes distinct phases: fetal androgen production, postnatal "minipuberty", and reactivation during adolescence. Key regulators include GnRH neurons, Sertoli and Leydig cells, and biomarkers such as AMH, inhibin B, testosterone and INSL3. Puberty is marked clinically by testicular enlargement beyond 4 mL, usually at a median age of 11.5 years. Delayed puberty is defined as absence of testicular enlargement by age 14. The most common cause is self-limited delayed puberty (SLDP), often familial and benign. Functional hypogonadotropic hypogonadism due to chronic illness, and permanent central hypogonadism (congenital or acquired), account for additional cases. Congenital hypogonadotropic hypogonadism (CHH), including Kallmann syndrome, is frequently genetic, with variants in genes such as FGFR1, ANOS1 and GNRHR. Clinical assessment includes family history, growth patterns, and red flags such as micropenis, cryptorchidism or anosmia. Show less

Which phenotypes can be confidently linked to a genetic etiology in males with congenital hypogonadotropic hypogonadism (CHH) resulting in absent or arrested puberty? In this systematic review and reclassification of the disease-causing potential of gene variants using the recommendations of the American College of Medical Genetics and Genomics (ACMG) and the Association for Molecular Pathology (AMP), we found that absent or arrested puberty in males with CHH was linked to 93 genes, of which 29 were unequivocally disease-causing. The number of genes and phenotype characterizations associated with CHH in males has rapidly increased since the advent of next-generation sequencing technologies; however, the quality of the evidence for the interpretation of the causal relationship of gene variants is limited due to the lack of systematic criteria applied to the assessment of the pathogenic potential of the variants. We performed a systematic review of original articles indexed in PubMed until 5 October 2022 and using the search terms '(('hypogonadotropic hypogonadism' OR Kallmann) AND (sequencing OR mutation OR variant))' limited to 'Humans' and 'English'. After two investigators undertook the literature search independently, titles and abstracts of all records were reviewed by four of the authors to identify those articles to be included in the full-text review. Clinical data and the association with gene variants were extracted from males with delayed or arrested puberty due to CHH according to the article authors' criteria. Raw sequence variant information was used to reevaluate their pathogenic potential applying the ACMG/AMP guidelines for variant classification with InterVar. Subsequently, we considered the phenotype specificity criteria for sequence variant pathogenicity classification, based on curated genes associated with CHH, and classified patients into three categories: with monogenic disease-causing variants in genes associated with CHH, with variants in genes whose causality is unclear, and with variants that are not disease-causing. From a total of 1083 records, we included 245 publications with 775 male patients with CHH resulting in absent or arrested puberty, carrying 1001 variants in 93 genes. Gene variants were detected by Sanger sequencing in 61.8% of the cases and by next-generation sequencing (NGS) technologies in the rest. After variant reclassification of causality, 278 individuals were not considered to have a bona fide disease-causing gene variant, and 497 patients were reclassified as carrying at least one disease-causing variant associated with CHH. They carried 503 different disease-causing variants in 29 genes. Spontaneous puberty was absent in 85.5% and arrested in 14.5% of the 497 individuals with CHH carrying bona fide disease-causing variants. In males with absent puberty (complete hypogonadotrophic hypogonadism), FGFR1 and ANOS1 were the most frequently affected genes, accounting for 53.5% of the disease-causing variants. In males with incomplete spontaneous puberty (partial hypogonadotrophic hypogonadism), variants in FGFR1, NR0B1, and GNRHR were found in 70.3% of the cases. Micropenis, cryptorchidism and/or low testicular volume, considered 'red flags' for the diagnosis of CHH, were found in less than 30% of males, with cryptorchidism being more frequently observed in association with variants in FGFR1, ANOS1, KISS1R, SOX10, and GNRH1, and micropenis being more prevalent in patients with variants in TACR3, KISS1R, or GNRH1. Clinical manifestations in non-reproductive organs were found in 39.8% of the patients with bona fide disease-causing variants. Because we included studies going back to the initial genetic reports of patients with CHH, results obtained by Sanger sequencing represent a significant proportion of the whole sample, which may be biased by the use of a candidate gene strategy. A subanalysis of cases studied by NGS modified the results only slightly. This comprehensive synthesis will help clinicians in the guidance of reverse phenotyping once the precise genetic diagnosis is established, and researchers in the design of functional studies to clarify the role of specific sequence variants in the etiology of male CHH. A genetic etiology of CHH in males with absent or arrested puberty should be considered even in the absence of micropenis, cryptorchidism, and/or low testicular volume. This work was partially funded by grants PICT I-A-2018-02972 of Fondo de Promoción Científica y Técnica (FONCYT), PICT A-CAT III2021-73 of Fondo Argentino Sectorial (FONARSEC) and Proyectos de Redes Federales de Alto Impacto 2023 #3 of Ministerio de Ciencia, Tecnología e Innovación, Argentina. Competing interests: None declared. None declared. Show less

We demonstrate a bipartition technique using a superlattice architecture to access correlations between alternating planes of a mesoscopic array of spin-3 chromium atoms trapped in a 3D optical lattice. Using this method, we observe that out-of-equilibrium dynamics driven by long-range dipolar interactions lead to spin anticorrelations between the two spatially separated subsystems. Our bipartite measurements reveal a subtle interplay between the anisotropy of the 3D dipolar interactions and that of the lattice structure, without requiring single-site addressing. We compare our results to theoretical predictions based on a truncated cumulant expansion and a new cluster semiclassical method that we use to investigate correlations at the microscopic scale. Comparison with a high-temperature analytical model reveals quantum thermalization at a high negative spin temperature. Show less

ZPR1 proteins belong to the C4-type of zinc finger coordinators known in animal cells to interact with other proteins and participate in cell growth and proliferation. In contrast, the current knowledge regarding plant ZPR1 proteins is very scarce. Here, we identify a novel potato nuclear factor belonging to this family and named StZPR1. StZPR1 is specifically expressed in photosynthetic organs during the light period, and the ZPR1 protein is located in the nuclear chromatin fraction. From modelling and experimental analyses, we reveal the StZPR1 ability to bind the circadian DNA cis motif 'CAACAGCATC', named CIRC and present in the promoter of the clock-controlled double B-box StBBX24 gene, the expression of which peaks in the middle of the day. We found that transgenic lines silenced for StZPR1 expression still display a 24 h period for the oscillation of StBBX24 expression but delayed by 4 h towards the night. Importantly, other BBX genes exhibit altered circadian regulation in these lines. Our data demonstrate that StZPR1 allows fitting of the StBBX24 circadian rhythm to the light period and provide evidence that ZPR1 is a novel clock-associated protein in plants necessary for the accurate rhythmic expression of specific circadian-regulated genes. Show less

Gestational diabetes (GD) alters normal fetal development and is related to a diabetogenic effect in the progeny. Liver X receptors (LXRs) are considered to be potential drug targets for the regulation, treatment, or prevention of diabetes. The aim of this study was to evaluate early and late changes of LXR in the hippocampus and hypothalamus of the male and female offspring of control (CO) and diabetic (DO) mothers. We used an experimental model of streptozotocin-induced GD to assess the protein expression of LXRα (NR1H3) and LXRβ (NR1H2) by western blotting. The tissues were obtained from CO and DO animals at postnatal day 1 (1D), day 10 (10D), and day 35 (35D) and 9 months (9M). In CO, the LXR expression showed significant differences among the groups, which were tissue- and receptor-specific (P<0.05). Sex differences in CO were found only in the hypothalamus for LXRβ expression at 35D and 9M (P<0.05). When CO and DO were compared, differences between them were observed in the majority of the studied groups at 1D (male hippocampus, LXRα 31% and LXRβ 161%; female hippocampus, LXRβ 165%; male hypothalamus, LXRβ 182%; and female hypothalamus, LXRα 85%; P<0.05). However, these differences disappeared later with the exception of LXRβ expression in the male hypothalamus (P<0.05). The area under the curve during the glucose tolerance test correlated negatively with LXRβ in CO but not in DO animals. Moreover, in a male DO subpopulation this correlation was positive as it occurs in intolerant animals. These results indicate that GD affects hypothalamic LXR expression differently in male and female offspring. Show less

Liver X receptor (LXR) α and β are nuclear receptors that are crucial for the regulation of carbohydrate and lipid metabolism. Activation of LXRs in the brain facilitates cholesterol clearance and improves cognitive deficits, thus they are considered as promising drug targets to treat diseases such as atherosclerosis and Alzheimer's disease. Nevertheless, little is known about the function and localization of LXRs in the brain. Here, we studied the expression of LXR in the brains of rats that received free access to 10% (w/v) fructose group (FG) in their beverages or water control drinks (control group (CG)). After 6 weeks rats in the FG presented with hypertriglyceridemia, hyperinsulinemia, and became glucose intolerant, suggesting a progression toward type 2 diabetes. We found that hypothalamic LXR expression was altered in fructose-fed rats. Rats in the FG presented with a decrease in LXRβ levels while showing an increase in LXRα expression in the hypothalamus but not in the hippocampus, cerebellum, or neocortex. Moreover, both LXRα and β expression correlated negatively with insulin and triglyceride levels. Interestingly, LXRβ showed a negative correlation with the area under the curve during the glucose tolerance test in the CG and a positive correlation in the FG. Immunocytochemistry revealed that the paraventricular and ventromedial nuclei express mainly LXRα whereas the arcuate nucleus expresses LXRβ. Both LXR immunosignals were found in the median preoptic area. This is the first study showing a relationship between glucose and lipid homeostasis and the expression of LXRs in the hypothalamus, suggesting that LXRs may trigger neurochemical and neurophysiological responses for the control of food intake and energy expenditure through these receptors. Show less