The size and structure of the dendritic arbor play important roles in determining how synaptic inputs of neurons are converted to action potential output. The regulatory mechanisms governing the development of dendrites, however, are insufficiently understood. The evolutionary conserved Ste20/Hippo kinase pathway has been proposed to play an important role in regulating the formation and maintenance of dendritic architecture. A key element of this pathway, Ste20-like kinase (SLK), regulates cytoskeletal dynamics in non-neuronal cells and is strongly expressed throughout neuronal development. However, its function in neurons is unknown. We show that, during development of mouse cortical neurons, SLK has a surprisingly specific role for proper elaboration of higher, ! third-order dendrites both in male and in female mice. Moreover, we demonstrate that SLK is required to maintain excitation-inhibition balance. Specifically, SLK knockdown caused a selective loss of inhibitory synapses and functional inhibition after postnatal day 15, whereas excitatory neurotransmission was unaffected. Finally, we show that this mechanism may be relevant for human disease, as dysmorphic neurons within human cortical malformations revealed significant loss of SLK expression. Overall, the present data identify SLK as a key regulator of both dendritic complexity during development and inhibitory synapse maintenance.
Autoantibody-related encephalopathies represent an important differential diagnosis in adult onset epilepsy. Here, we report the case of a 25-year-old patient with new-onset epilepsy and psychotic syndrome, who underwent biopsy resection for etiological classification. MRI analysis and neuropathological examination showed a T-lymphocytic dominated encephalitis with involvement of the limbic system. An indirect immunohistochemistry approach identified autoantibodies against glutamic acid decarboxylase (GAD) in cerebral spinal fluid and serum, which were confirmed by affinity purification / mass spectrometry analysis. Further examinations revealed evidence of chromosomally integrated human herpes virus type 6B (HHV-6B). However, astrocytic expression of HHV-6 lytic protein was detected by double immunofluorescence analysis. The cerebral expression of HHV-6 antigen, a clinical improvement under antiviral therapy as well as an initial finding of HHV-6 IgM antibodies strongly argue for an additional active HHV-6B infection. Review of the literature reveals singular reports of patients with GAD antibody-positive limbic encephalitis and central nervous system infections with HHV-6B. Since herpes simplex virus encephalitis has been recently reported as a trigger of N-methyl-D-aspartate receptor antibody encephalitis, it is tempting to speculate that HHV-6B infections may trigger a non-paraneoplastic form of limbic encephalitis in a parallel cascade.
Epilepsy is one of the most common neurological disorders. The X-linked gene PCDH19 is associated with sporadic and familial epilepsy in humans, typically with early-onset clustering seizures and intellectual disability in females but not in so-called carrier males, suggesting that mosaic PCDH19 expression is required to produce epilepsy. To characterize the role of loss of PCDH19 function in epilepsy, we generated zebrafish with truncating pcdh19 variants. We observed hyperexcitability phenotypes in both mosaic and non-mosaic pcdh19+/- and -/- mutant larvae, indicating that Pcdh19 cellular mosaicism is not required for network hyperexcitability in zebrafish. Further, zebrafish with non-mosaic pcdh19 mutation display reduced numbers of inhibitory interneurons and transcriptional down-regulation of key inhibitory synapse components, suggesting a potential cellular basis for the observed hyperexcitability. Our findings in both mosaic and non-mosaic pcdh19 mutant zebrafish challenge the prevailing theory that mosaicism governs all PCDH19-related phenotypes and point to interneuron-mediated mechanisms underlying these phenotypes.
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