A Drosophila Mutant with a Temperature-Sensitive Block in Nerve Conduction

A mutant, napts (no action potential, temperature-sensitive), is described in which axonal conduction fails at high temperature. Synaptic transmission at the larval neuromuscular junction is unimpaired. Larvae and adults are rapidly paralyzed at restrictive temperatures; they recover rapidly when the temperature is decreased. The mutant gene is recessive and is located on the second chromosome at map position 56

Limb body wall complex, amniotic band sequence, or new syndrome caused by mutation in IQ Motif containing K (IQCK)?

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SIK3 suppresses neuronal hyperexcitability by regulating the glial capacity to buffer K+ and water

Glial regulation of extracellular potassium (

It is Time for Zero Tolerance for Sexual Harassment in Academic Medicine

While there are more women in leadership positions in academic medicine now than ever before in our history, evidence from recent surveys of women and from graduating medical students demonstrates that sexual harassment continues in our institutions. Our ability to change the culture is hampered by fear of reporting episodes of harassment, which is largely due to fear of retaliation. We describe some efforts in scientific societies that are addressing this and working to establish safe environments at national meetings. We must also work at the level of each institution to make it safe for individuals to come forward, to provide training for victims and for bystanders, and to abolish locker room talk that is demeaning to women

Case report: Two unexpected cases of DGUOK-related mitochondrial DNA depletion syndrome presenting with hyperinsulinemic hypoglycemia

Timely diagnosis of persistent neonatal hypoglycemia is critical to prevent neurological sequelae, but diagnosis is complicated by the heterogenicity of the causes. We discuss two cases at separate institutions in which clinical management was fundamentally altered by the results of molecular genetic testing. In both patients, critical samples demonstrated hypoketotic hypoglycemia and a partial glycemic response to glucagon stimulation, thereby suggesting hyperinsulinism (HI). However, due to rapid genetic testing, both patients were found to have deoxyguanosine kinase (DGUOK)-related mitochondrial DNA depletion syndrome, an unexpected diagnosis. Patients with this disease typically present with either hepatocerebral disease in the neonatal period or isolated hepatic failure in infancy. The characteristic features involved in the hepatocerebral form of the disease include lactic acidosis, hypoglycemia, cholestasis, progressive liver failure, and increasing neurologic dysfunction. Those with isolated liver involvement experience hepatomegaly, cholestasis, and liver failure. Although liver transplantation is considered, research has demonstrated that for patients with DGUOK-related mitochondrial DNA depletion syndrome and neurologic symptoms, early demise occurs. Our report advocates for the prompt initiation of genetic testing in patients presenting with persistent neonatal hypoglycemia and for the incorporation of mitochondrial DNA depletion syndromes in the differential diagnosis of HI

Biallelic variants in OGDH encoding oxoglutarate dehydrogenase lead to a neurodevelopmental disorder characterized by global developmental delay, movement disorder, and metabolic abnormalities

PURPOSE: This study aimed to establish the genetic cause of a novel autosomal recessive neurodevelopmental disorder characterized by global developmental delay, movement disorder, and metabolic abnormalities. METHODS: We performed a detailed clinical characterization of 4 unrelated individuals from consanguineous families with a neurodevelopmental disorder. We used exome sequencing or targeted-exome sequencing, cosegregation, in silico protein modeling, and functional analyses of variants in HEK293 cells and Drosophila melanogaster, as well as in proband-derived fibroblast cells. RESULTS: In the 4 individuals, we identified 3 novel homozygous variants in oxoglutarate dehydrogenase (OGDH) (NM_002541.3), which encodes a subunit of the tricarboxylic acid cycle enzyme α-ketoglutarate dehydrogenase. In silico homology modeling predicts that c.566C>T:p.(Pro189Leu) and c.890C>A:p.(Ser297Tyr) variants interfere with the structure and function of OGDH. Fibroblasts from individual 1 showed that the p.(Ser297Tyr) variant led to a higher degradation rate of the OGDH protein. OGDH protein with p.(Pro189Leu) or p.(Ser297Tyr) variants in HEK293 cells showed significantly lower levels than the wild-type protein. Furthermore, we showed that expression of Drosophila Ogdh (dOgdh) carrying variants homologous to p.(Pro189Leu) or p.(Ser297Tyr), failed to rescue developmental lethality caused by loss of dOgdh. SpliceAI, a variant splice predictor, predicted that the c.935G>A:p.(Arg312Lys)/p.(Phe264_Arg312del) variant impacts splicing, which was confirmed through a mini-gene assay in HEK293 cells. CONCLUSION: We established that biallelic variants in OGDH cause a neurodevelopmental disorder with metabolic and movement abnormalities

Efeitos da administração a longo prazo de dietas com diferentes teores de sódio sobre a função renal de ratos hipertensos

A alta ingestão de sódio contribui significativamente para o desenvolvimento da hipertensão e suas complicações. Dentre estas, a doença renal crônica. Entretanto, os mecanismos moleculares responsáveis pelos danos renais e pela renoproteção produzidos por dietas de alto e baixo sal, respectivamente, são pouco compreendidos. Objetivo: Investigar os efeitos a longo prazo de dietas com diferentes teores de cloreto de sódio sobre a função renal de ratos espontaneamente hipertensos (SHR) focando nos mecanismos moleculares envolvidos no manejo renal de albumina e componentes do sistema renina angiotensina renal (SRA). Métodos: ratos SHR machos recém-desmamados (4 semamas) foram alimentados durante 6 meses com dietas diferindo apenas no teor de NaCl: dieta padrão de sal (NS: 0.3 %), dieta de baixo sal (LS: 0.03%) e dieta de alto teor de sal ( HS: 3%). Foram realizadas análises de função e morfologia renal, avaliação da expressão de componentes-chave envolvidos no manejo renal de albumina, incluindo as proteínas da slit membrane (nefrina e podocina) e do aparato endocítico do túbulo proximal (megalina e cubilina). Além disso, a expressão ea atividade dos componentes do RAS (enzima conversora de angiotensina ACE, ACE2, AT1, AT2 e Mas) também foram examinados. Resultados: HS agravou a hipertensão nos ratos SHR, provocou hipertrofia glomerular, diminuição da expressão renal de nefrina e ECA2, levou à perda da integridade morfológica dos processos podais e ao aumento da proteinúria caracterizado pela perda de albumina e proteínas de alto peso molecular. Por outro lado, a hipertensão grave foi atenuada e disfunção renal foi prevenida pela dieta LS, já que, a proteinúria foi muito menor nestes animais quando comparados aos SHR NS. Tais achados foram associados com uma diminuição da razão de proteína e de atividade das enzimas ECA/ECA2 nos rins e aumento da expressão renal de cubilina. Conclusão: Portanto, os resultados sugerem que a dieta a baixa ingestão de sódio atenua a progressão da hipertensão em ratos SHR e preserva a função renal. Os mecanismo que parcialmente podem explicar estes resultados incluem a modulação intra-renal do balanço ECA/ECA2 e o aumento da expressão renal de cubilina. Contudo, a alta ingestão de sódio agrava a lesão renal hipertensiva e reduz a expressão de nefrina, um componente chave slit diaphragm

β-N-Methylamino-L-alanine Induces Neurological Deficits and Shortened Life Span in Drosophila

The neurotoxic non-protein amino acid, β-N-methylamino-L-alanine (BMAA), was first associated with the high incidence of Amyotrophic Lateral Sclerosis/Parkinsonism Dementia Complex (ALS/PDC) in Guam. Recently, BMAA has been implicated as a fierce environmental factor that contributes to the etiology of Alzheimer’s and Parkinson’s diseases, in addition to ALS. However, the toxicity of BMAA in vivo has not been clearly demonstrated. Here we report our investigation of the neurotoxicity of BMAA in Drosophila. We found that dietary intake of BMAA reduced life span, locomotor functions, and learning and memory abilities in flies. The severity of the alterations in phenotype is correlated with the concentration of BMAA detected in flies. Interestingly, developmental exposure to BMAA had limited impact on survival rate, but reduced fertility in females, and caused delayed neurological impairment in aged adults. Our studies indicate that BMAA exposure causes chronic neurotoxicity, and that Drosophila serves as a useful model in dissecting the pathogenesis of ALS/PDC