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1.
Am J Med Genet A ; 194(2): 301-310, 2024 Feb.
Article in English | MEDLINE | ID: mdl-37827855

ABSTRACT

Treatment-resistant epilepsy is among the most serious complications of cardiofaciocutaneous syndrome (CFCS), a rare disorder caused by germline variants in the RAS-MAPK signaling pathway. This study analyzed the clinical characteristics of epilepsy and response to anti-seizure medications (ASMs) in a multinational CFCS cohort. A caregiver survey provided data regarding seizure history, use of ASMs and other treatment approaches, adverse effects, caregiver perception of treatment response, and neurological disease burden impact among individuals with CFCS. Results from 138 survey responses were quantitatively analyzed in conjunction with molecular genetic results and neurological records. The disease burden impact of CFCS was higher among individuals with epilepsy (n = 74/138), especially those with more severe seizure presentation. Oxcarbazepine, a sodium-channel blocker, had the best seizure control profile with relatively infrequent adverse effects. The most commonly prescribed ASM, levetiracetam, demonstrated comparatively poor seizure control. ASM efficacy was generally similar for individuals with BRAF and MAP2K1 gene variants. The high proportion of patients with CFCS who experienced poor seizure control despite use of multiple ASMs highlights a substantial unmet treatment need. Prospective study of ASM efficacy and clinical trials of therapies to attenuate RAS-MAPK signaling may improve avenues for clinical management.


Subject(s)
Drug-Related Side Effects and Adverse Reactions , Ectodermal Dysplasia , Epilepsy , Facies , Failure to Thrive , Heart Defects, Congenital , Humans , Prospective Studies , Epilepsy/drug therapy , Epilepsy/genetics , Levetiracetam , Seizures/drug therapy , Seizures/genetics , Anticonvulsants/therapeutic use
2.
J Biol Chem ; 298(8): 102132, 2022 08.
Article in English | MEDLINE | ID: mdl-35700826

ABSTRACT

Tau aggregation underlies neurodegenerative tauopathies, and transcellular propagation of tau assemblies of unique structure, i.e., strains, may underlie the diversity of these disorders. Polyanions have been reported to induce tau aggregation in vitro, but the precise trigger to convert tau from an inert to a seed-competent form in disease states is unknown. RNA triggers tau fibril formation in vitro and has been observed to associate with neurofibrillary tangles in human brain. Here, we have tested whether RNA exerts sequence-specific effects on tau assembly and strain formation. We found that three RNA homopolymers, polyA, polyU, and polyC, all bound tau, but only polyA RNA triggered seed and fibril formation. In addition, polyA:tau seeds and fibrils were sensitive to RNase. We also observed that the origin of the RNA influenced the ability of tau to adopt a structure that would form stable strains. Human RNA potently induced tau seed formation and created tau conformations that preferentially formed stable strains in a HEK293T cell model, whereas RNA from other sources, or heparin, produced strains that were not stably maintained in cultured cells. Finally, we found that soluble, but not insoluble seeds from Alzheimer's disease brain were also sensitive to RNase. We conclude that human RNA specifically induces formation of stable tau strains and may trigger the formation of dominant pathological assemblies that propagate in Alzheimer's disease and possibly other tauopathies.


Subject(s)
Alzheimer Disease , RNA , Tauopathies , tau Proteins , Alzheimer Disease/metabolism , Brain/metabolism , HEK293 Cells , Humans , RNA/metabolism , Ribonucleases/metabolism , Tauopathies/metabolism , tau Proteins/metabolism
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