KCNQ2. The next ion channel gene to be reviewed in the Epilepsiome blog posts is KCNQ2, encoding a subunit of a voltage-gated potassium channel. Known for years as a gene for a familial and self-limiting neonatal epilepsy syndrome, mutations are now also shown to be a frequent cause of neonatal epileptic encephalopathy. Here is what you need to know about KCNQ2 in 2015. Continue reading
Category Archives: Epilepsiome
SCN2A – this is what you need to know in 2015
SCN2A. The next gene on our list of epilepsy genes to review is SCN2A. Within less than three years, SCN2A has risen from a gene for a very rare benign familial epilepsy syndrome to one of the most prominent genes associated with neurodevelopmental disorders to date. Epilepsies due to SCN2A mutations can have a broad range of phenotypes that are still not fully understood. Here is our 2015 post on the gene that we refer to as the genetic shapeshifter. Continue reading
Publications of the week: RBFOX1, THOC2, and exome sequencing in Infantile Spasms
Issue 8/2015. This week’s review of the relevant publications in the field is about a novel risk factor for focal epilepsies, a gene involved in mRNA transport from the cell nucleus, and a small, confirmatory study on exome sequencing in Infantile Spasms.
Mysteries of a neuronal pathfinder – this is what you should know about PCDH19 in 2015
Protocadherin. There are some genes that we have mentioned less frequently on our blog than we should have. PCDH19 and CDKL5 are two examples of this. With this post, we try to catch up by reviewing some of the new findings related to PCDH19 Female Epilepsy including the role of neurosteroids, anti-NMDA receptor antibodies, stiripentol and the mechanism behind this epilepsy. Continue reading
DNM1 encephalopathy – interneurons, endocytosis, and study group
Dynamin 1. De novo mutations in DNM1 coding for Dynamin 1 are increasingly recognized as a cause for epileptic encephalopathies. However, given the role of Dynamin 1 in endocytosis in a large number of cells, the precise mechanisms how mutations may result in seizures are poorly understood. Now two recent publications in PLOS Genetics and Neurology Genetics explore the functional effects of epilepsy-related DNM1 mutations. The publication of both manuscripts is also a timely reminder to announce our international DNM1 study group that has the aim to better understand the phenotype of this disease. Continue reading
Publications of the week: SCN8A, SYN1, ZDHHC9, and SCNM1
Power outage. This week’s publications of the week were conceptualized in complete darkness. A thunderstorm had hit the Philadelphia area on Tuesday, leading to widespread power outages in the region. I found myself in the strange position of being without power for a night, but with full strength cell phone reception and a completely charged laptop battery. Here is our post on the most relevant publications of the last few weeks, written in the calm of a dark night where the only sound around was the howling of our neighbor’s backup generator. Continue reading
SCN1A – this is what you should know in 2015
2015 update. Our updates on SCN1A mutations and Dravet Syndrome are amongst our most frequently read posts. Therefore, following the tradition of annual reviews that we started last year, we thought that a quick update on SCN1A would be timely again, building on our previous 2014 update. These are the five things about SCN1A that you should know in 2015. Continue reading
EFHC1 – retiring an epilepsy gene
The era of gene retirement. As of 2015, the list of epilepsy genes has shrunk by one. EFHC1, a gene initially proposed to be a monogenic cause of Juvenile Myoclonic Epilepsy, is no longer an epilepsy gene. A recent study in Epilepsia finds that EFHC1 variants initially thought to be pathogenic are found in unaffected controls of the same ancestry. Follow us on one of the most perplexing journeys that modern day neurogenetics has to offer, and the retirement of the first epilepsy gene. Continue reading
A genetic counselor’s wish list for epilepsy genetics in 2015
Mt. Rainier. After our recent posts about the 2014 AES in Seattle, we received an email from Beth in Boston, highlighting some of the issues that genetic counselor face in epilepsy genetics when dealing with next gen sequencing data. Beth drew up a wish list for 2015 and asked us for comments. Here is a brief discussion between Beth and me on how high throughput epilepsy genetics sometimes comes to grinding halt in clinical practice. Continue reading
These are the top 10 epilepsy genes of 2014
Top 10. 2014 has been a very productive year in epilepsy gene discovery and with our final blog post this year, we wanted to provide a brief overview of what has been pertinent this year. From the multitude of novel genes identified this year, here are the 10 most relevant findings – including some genes that you probably didn’t expect. Continue reading