👤 Laura Mauri

Mutations in INTS11, the catalytic subunit of the Integrator complex essential for RNA processing and transcriptional termination, have been linked to neurodevelopmental disorders (NDDs), yet the underlying mechanisms remain poorly understood. To address this gap, we developed and characterized a novel ints11 loss-of-function zebrafish model using CRISPR/Cas9 and morpholino-based approaches, which recapitulates key phenotypic traits observed in human patients, including motor and behavioral deficits. ints11 deficiency led to marked impairments in locomotor activity and visual motor response, consistent with the neurological manifestations reported in INTS11-mutated patients. These behavioral abnormalities were paralleled by significant dysregulation of neurodevelopmental gene expression, including decreased expression of islet1, map2, gfap, and mag, and upregulation of the progenitor marker nestin, indicating defective neuronal differentiation and glial maturation. Interestingly, the observed phenotypes are rescued not only by mRNA-mediated re-expression of ints11, but also through pharmacological administration with brain-derived neurotrophic factor (BDNF) and the GM1 ganglioside-derived oligosaccharide (OligoGM1). These findings highlight neurotrophic signaling as a potential compensatory axis counteracting RNA-processing defects. In conclusion, our work establishes the first in vivo zebrafish model of INTS11-associated neurodevelopmental dysfunction, uncovering conserved molecular mechanisms that link Integrator complex activity, neurotrophic support, and neuronal maturation and providing a valuable platform for dissecting disease mechanisms and evaluating therapeutic strategies targeting RNA processing pathways and neurotrophic support in NDDs. Show less

For the advancements of photoresponsive materials with tunable properties, the usage of multidimensional signals is desired. Using the polarization of the light in addition to the wavelength represents a further parameter to control the materials properties. Here, the first-time dynamic and reversible manipulation of the guest-host properties of a nanoporous material by linearly polarized light (LPL) is reported. The material is based on a metal-organic framework (MOF) with photoresponsive azobenzene side groups covalently connected to the MOF structure. The azobenzene moieties are reversibly reoriented by LPL, making the MOF structure and, thus, the pores anisotropic. As a result, the mobility of the guest molecules in the pores of the initially isotropic material becomes anisotropic, which can be dynamically controlled by the light polarization. The experiments by impedance spectroscopy are supported by molecular dynamics (MD) simulations. The study shows that the light polarization can be a further parameter to modify the material properties, allowing a more complex and more refined level of control for smart materials. Show less

High lipoprotein(a) [Lp(a)] levels are associated with increased coronary artery calcification (CAC) in familial hypercholesterolaemia (FH) patients. However, mechanisms linking high Lp(a) with CAC remain poorly understood. In this study, we have performed a bioinformatics and system biology analysis to identify miRNAs and their target genes involved in Lp(a)-associated atherosclerotic lesion and coronary calcification in FH patients. Patients with a genetic diagnosis of FH ( Forty-two miRNAs had > 1.5-fold difference in their detection levels when grouped by Lp(a) [FH-Lp(a)> 50 ( Our results identify a miRNA signature that regulates atherosclerotic processes associated with high Lp(a) levels and CAC in asymptomatic FH patients. These findings offer new insights into the underlying mechanisms and highlight potential therapeutic targets. Show less

Epidemiological studies support the role for a strong genetic component in the occurrence of early-onset myocardial infarction (MI), although the specific genetic variants responsible for familial clustering remain largely unknown. The Italian study of early-onset MI is a nationwide case-control study involving 1864 case patients <45 years old who were hospitalized for a first MI, and age/sex/place of origin-matched controls (n = 1864). We investigated the association between early-onset MI, lipid levels and 20 single nucleotide polymorphisms (SNPs) in the candidate genes ADIPOQ, APOA5, ALOX5AP, CYBA, IL6, LPL, PECAM1, PLA2G2A and PLA2G7, chosen because of previously reported associations with Coronary Heart Disease (CHD) or with CHD risk factors. Of all the SNPs investigated, APOA5-1131T>C [(rs662799), minor allele frequency 0.084 (95% confidence interval (CI) 0.07-0.09)] alone showed a statistically significant association with risk of early-onset MI (p = 6.7 × 10(-5)), after Bonferroni correction, with a per C allele odds ratio of 1.44 (95% CI 1.23-1.69). In controls, APOA5-1131T>C was significantly associated with raised plasma triglyceride levels (p = 0.001), compared with non-carriers, the per C allele increase being 11.4% (95% CI 4-19%), equivalent to 0.15 mmol/L (95% CI 0.11-0.20 mmol/L). In cases, the association with early MI risk remained statistically significant after adjustment for triglycerides (p = 0.006). The APOA5-1131C allele, associated with higher fasting triglyceride levels, strongly affects the risk for early-onset MI, even after adjusting for triglycerides. This raises the possibility that APOA5-1131T>C may affect the risk of early MI over and above effects mediated by triglycerides. Show less