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- Charting the path: navigating embryonic development to potentially safeguard against congenital heart defectsPublication . Bragança, José; Pinto, Rute L.; Silva, Barbara S.; Marques, Nuno; Leitao, Helena; Fernandes, Mónica T.Congenital heart diseases (CHDs) are structural or functional defects present at birth due to improper heart development. Current therapeutic approaches to treating severe CHDs are primarily palliative surgical interventions during the peri- or prenatal stages, when the heart has fully developed from faulty embryogenesis. However, earlier interventions during embryonic development have the potential for better outcomes, as demonstrated by fetal cardiac interventions performed in utero, which have shown improved neonatal and prenatal survival rates, as well as reduced lifelong morbidity. Extensive research on heart development has identified key steps, cellular players, and the intricate network of signaling pathways and transcription factors governing cardiogenesis. Additionally, some reports have indicated that certain adverse genetic and environmental conditions leading to heart malformations and embryonic death may be amendable through the activation of alternative mechanisms. This review first highlights key molecular and cellular processes involved in heart development. Subsequently, it explores the potential for future therapeutic strategies, targeting early embryonic stages, to prevent CHDs, through the delivery of biomolecules or exosomes to compensate for faulty cardiogenic mechanisms. Implementing such non-surgical interventions during early gestation may offer a prophylactic approach toward reducing the occurrence and severity of CHDs.
- A new variant in the NALCN channel is responsible for cerebellar ataxia and cognitive impairmentPublication . Cabrita Pinto, Rute Luísa; Fancellu, Roberto; Markushi, Tiziana Benzi; Viaggi, Silvia; Testa, Barbara; Conteduca, Giuseppina; Fitzsimmons, Lane; Coviello, Domenico; Covone, Angela ElviraCLIFAHDD syndrome (OMIM # 616266) is a rare neurodevelopmental disorder caused by mutations in the NALCN gene. It is characterized by hypotonia, developmental delay, and congenital contractures of the limbs and face. We report a 33-year-old Italian woman with a mild form of CLIFAHDD who exhibited early-onset language difficulties and mild intellectual disability and later developed gait and balance impairments in adulthood. Whole Exome Sequencing (WES) identified a novel missense variant c.1514A>T; p.(Lys505Met) in the NALCN gene. The allele frequency of this variant is not detected (MAF = 0.0), the variant is classified as likely pathogenic according to ACMG criteria, and predicted to be probably damaging by PolyPhen-2. It affects a critical residue within the second pore-forming domain of the NALCN channel, potentially altering lipid interactions and channel regulation. Sanger sequencing and segregation analysis confirmed the variant to be heterozygous and de novo. The patient's milder symptoms and later onset, compared to severe pediatric cases, suggest that the clinical spectrum of CLIFAHDD syndrome may be broader than previously recognized. These findings underscore the potential influence of mutation location on disease presentation and severity.
- CITED Proteins in cardiac development and lifelong heart functionPublication . Bragança, José; Cabrita Pinto, Rute Luísa; Vairinho Ventura, Igor; Ferreira, Silvana; Marreiros, AntónioThe CITED proteins function as transcriptional modulators that are essential for vertebrate development. These proteins interact with numerous partners, notably transcription factors and co-activators. The hallmark of the CITED family is their conserved carboxy-terminal domain, which interacts strongly with the CBP/p300 co-activators. The expression of CITED genes is detected early during embryogenesis within embryonic and foetal regions critical for cardiac morphogenesis, among other developmental processes. Notably, CITED2 loss of function is strongly associated with congenital heart malformations in mice and zebrafish embryos, as well as congenital heart disease (CHD) in humans, whereas other CITED family members are not critical for cardiogenesis. Emerging evidence implicates CITED2 and CITED4 in regulating heart physiological adaptations and protective responses to pathological stress. This review provides a detailed analysis of CITED proteins and their interactors, focusing on CITED-target genes relevant for cardiogenesis and heart disease. We also highlight recent findings indicating that CITED2 and CITED4 may be instrumental for the development of novel therapeutic strategies to mitigate CHD and preserve adult cardiac function.