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1.
Science ; 384(6695): 584-590, 2024 05 03.
Article in English | MEDLINE | ID: mdl-38696583

ABSTRACT

Meningomyelocele is one of the most severe forms of neural tube defects (NTDs) and the most frequent structural birth defect of the central nervous system. We assembled the Spina Bifida Sequencing Consortium to identify causes. Exome and genome sequencing of 715 parent-offspring trios identified six patients with chromosomal 22q11.2 deletions, suggesting a 23-fold increased risk compared with the general population. Furthermore, analysis of a separate 22q11.2 deletion cohort suggested a 12- to 15-fold increased NTD risk of meningomyelocele. The loss of Crkl, one of several neural tube-expressed genes within the minimal deletion interval, was sufficient to replicate NTDs in mice, where both penetrance and expressivity were exacerbated by maternal folate deficiency. Thus, the common 22q11.2 deletion confers substantial meningomyelocele risk, which is partially alleviated by folate supplementation.


Subject(s)
Chromosome Deletion , Chromosomes, Human, Pair 22 , Meningomyelocele , Animals , Female , Humans , Male , Mice , Chromosomes, Human, Pair 22/genetics , DiGeorge Syndrome/genetics , Exome Sequencing , Folic Acid/administration & dosage , Folic Acid Deficiency/complications , Folic Acid Deficiency/genetics , Meningomyelocele/epidemiology , Meningomyelocele/genetics , Penetrance , Spinal Dysraphism/genetics , Risk , Adaptor Proteins, Signal Transducing/genetics
2.
Life Sci Alliance ; 7(8)2024 Aug.
Article in English | MEDLINE | ID: mdl-38777371

ABSTRACT

Pathogenic and likely pathogenic variants in the TECRL gene are known to be associated with recessive catecholaminergic polymorphic ventricular tachycardia 3, which can include prolonged QT intervals (MIM#614021). We report a case of cardiac arrest in a previously healthy adolescent male in the community. The patient was found to have a novel maternally inherited likely pathogenic variant in TECRL (c.915T>G [p.Tyr305Ter]) and an additional 19-kb duplication encompassing multiple exons of TECRL (chr4:65165944-65185287, dup [4q13.1]) not identified in the mother. Genetic results were revealed via rapid whole-genome sequencing, which allowed appropriate treatment and prognostication.


Subject(s)
Tachycardia, Ventricular , Humans , Tachycardia, Ventricular/genetics , Male , Adolescent , Pedigree , Mutation , Electrocardiography , Genetic Predisposition to Disease , Whole Genome Sequencing
3.
Cell ; 187(9): 2143-2157.e15, 2024 Apr 25.
Article in English | MEDLINE | ID: mdl-38670072

ABSTRACT

A central question for regenerative neuroscience is whether synthetic neural circuits, such as those built from two species, can function in an intact brain. Here, we apply blastocyst complementation to selectively build and test interspecies neural circuits. Despite approximately 10-20 million years of evolution, and prominent species differences in brain size, rat pluripotent stem cells injected into mouse blastocysts develop and persist throughout the mouse brain. Unexpectedly, the mouse niche reprograms the birth dates of rat neurons in the cortex and hippocampus, supporting rat-mouse synaptic activity. When mouse olfactory neurons are genetically silenced or killed, rat neurons restore information flow to odor processing circuits. Moreover, they rescue the primal behavior of food seeking, although less well than mouse neurons. By revealing that a mouse can sense the world using neurons from another species, we establish neural blastocyst complementation as a powerful tool to identify conserved mechanisms of brain development, plasticity, and repair.


Subject(s)
Neurons , Animals , Mice , Rats , Neurons/metabolism , Neurons/cytology , Neurons/physiology , Blastocyst/metabolism , Blastocyst/cytology , Pluripotent Stem Cells/cytology , Pluripotent Stem Cells/metabolism , Brain/cytology , Brain/physiology , Female , Hippocampus/cytology , Hippocampus/physiology , Species Specificity , Mice, Inbred C57BL , Male
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