Expression of synphilin-1 in neurons induces hyperphagia and obesity in a Drosophila model. However, the molecular pathways underlying synphilin-1-linked obesity remain unclear. Here, Drosophila models and genetic tools were used to study the synphilin-1-linked pathways in energy balance by combining molecular biology and pharmacological approaches. We found that expression of human synphilin-1 in flies increased AMP-activated kinase (AMPK) phosphorylation at Thr172 compared with that in non-transgenic flies. Knockdown of AMPK reduced AMPK phosphorylation and food intake in non-transgenic flies, and further suppressed synphilin-1-induced AMPK phosphorylation, hyperphagia, fat storage and body weight gain in transgenic flies. Expression of constitutively activated AMPK significantly increased food intake and body weight gain in non-transgenic flies, but it did not alter food intake in the synphilin-1 transgenic flies. In contrast, expression of dominant-negative AMPK reduced food intake in both non-transgenic and synphilin-1 transgenic flies. Treatment with STO-609 also suppressed synphilin-1-induced AMPK phosphorylation, hyperphagia and body weight gain. These results demonstrate that the AMPK signaling pathway plays a critical role in synphilin-1-induced hyperphagia and obesity. These findings provide new insights into the mechanisms of synphilin-1-controlled energy homeostasis.The ARID1B (BAF250b) subunit of the human SWI/SNF chromatin remodeling complex is a canonical nuclear tumor suppressor. We employed in silico prediction, intracellular fluorescence and cellular fractionation-based subcellular localization analyses to identify the ARID1B nuclear localization signal (NLS). A cytoplasm-restricted ARID1B-NLS mutant was significantly compromised in its canonical transcription activation and tumor suppressive functions, as expected. Surprisingly however, cytoplasmic localization appeared to induce a gain of oncogenic function for ARID1B, as evidenced from several cell line- and mouse xenograft-based assays. Mechanistically, cytoplasm-localized ARID1B could bind c-RAF (RAF1) and PPP1CA causing stimulation of RAF-ERK signaling and β-catenin (CTNNB1) transcription activity. ARID1B harboring NLS mutations derived from tumor samples also exhibited aberrant cytoplasmic localization and acquired a neo-morphic oncogenic function via activation of RAF-ERK signaling. Furthermore, immunohistochemistry on a tissue microarray revealed significant correlation of ARID1B cytoplasmic localization with increased levels of active forms of ERK1 and ERK2 (also known as MAPK3 and MAPK1) and of β-catenin, as well as with advanced tumor stage and lymph node positivity in human primary pancreatic tumor tissues. ARID1B therefore promotes oncogenesis through cytoplasm-based gain-of-function mechanisms in addition to dysregulation in the nucleus.This article has an associated First Person interview with the first author of the paper.
Adoptees are a population that could benefit from genetic testing to fill gaps in family health history (FHH). Elective genomic testing (EGT) provides adoptees with clinical genetic testing options to learn about genetic health risks in the absence of FHH. We assessed adoptees' interests in, motivations for and perceived utility of EGT.

Adult adoptees and non-adoptees completed an anonymous, online survey regarding their interest and motivations for EGT, perceived utility of potential results and willingness to pay for EGT. A validated measure of social identity was included to measure the effects of social identity on testing interest.

There were 112 adoptees and 229 non-adoptees included in the study. https://www.selleckchem.com/products/cerivastatin-sodium.html Adoptees reported greater interest in EGT (OR 5.0, 95% CI 2.2 to 11.3) than non-adoptees. They were motivated by curiosity and a desire to learn information about risks to children and grandchildren more than non-adoptees. Adoptees with higher education and non-adoptees with higher incomes were significantly more likely to spend more on EGT. Adoptees with higher incomes and non-adoptees with higher education were not significantly more likely to spend more. Social identity was a significant mediator between adoption and testing motivation.

Understanding adoptees' unique motivations and interests in EGT will allow healthcare providers to better address the informational needs and desires of this population. Social identity provides a foundation for recognising adoptees' universal experiences that influence motivations for genetic testing.
Understanding adoptees' unique motivations and interests in EGT will allow healthcare providers to better address the informational needs and desires of this population. Social identity provides a foundation for recognising adoptees' universal experiences that influence motivations for genetic testing.Neural competition plays an essential role in active selection processes of noisy and ambiguous input signals, and it is assumed to underlie emergent properties of brain functioning, such as perceptual organization and decision-making. Despite ample theoretical research on neural competition, experimental tools to allow neurophysiological investigation of competing neurons have not been available. We developed a "hybrid" system where real-life neurons and a computer-simulated neural circuit interacted. It enabled us to construct a mutual inhibition circuit between two real-life pyramidal neurons. We then asked what dynamics this minimal unit of neural competition exhibits and compared them with the known behavioral-level dynamics of neural competition. We found that the pair of neurons shows bistability when activated simultaneously by current injections. The addition of modeled synaptic noise and changes in the activation strength showed that the dynamics of the circuit are strikingly similar to the known prrved that the pair of neurons exhibit dynamics strikingly similar to the known properties of bistable visual perception.Developing optimal T-cell response assays to severe acute respiratory syndrome coronavirus type 2 (SARS-CoV-2) is critical for measuring the duration of immunity to this disease and assessing the efficacy of vaccine candidates. These assays need to target conserved regions of SARS-CoV-2 global variants and avoid cross-reactivity to seasonal human coronaviruses. To contribute to this effort, we employed an in silico immunoinformatics analysis pipeline to identify immunogenic peptides resulting from conserved and highly networked regions with topological importance from the SARS-CoV-2 nucleocapsid and spike proteins. A total of 57 highly networked T-cell epitopes that are conserved across geographic viral variants were identified from these viral proteins, with a binding potential to diverse HLA alleles and 80 to 100% global population coverage. Importantly, 18 of these T-cell epitope derived peptides had limited homology to seasonal human coronaviruses making them promising candidates for SARS-CoV-2-specific T-cell immunity assays.