# Novel, complex configurations of the MARCHF6 repeat expansion associated with progressive myoclonic epilepsy and familial adult myoclonic epilepsy

**Authors:** Mark F Bennett, Mark A Corbett, Thessa Kroes, Laura Canafoglia, Karen L Oliver, Jillian M Cameron, Neblina Sikta, Jacob Munro, Liam G Fearnley, Kristina Ibañez, Arianna Tucci, Sanjay M Sisodiya, Michael S Hildebrand, Ingrid E Scheffer, Carolina Courage, Anna-Elina Lehesjoki, Loretta Giuliano, Giuseppe Didato, Silvana Franceschetti, Jozef Gecz, Samuel F Berkovic, Melanie Bahlo

PMC · DOI: 10.1093/braincomms/fcaf433 · 2025-11-03

## TL;DR

Researchers found hidden genetic repeat expansions in a gene linked to rare forms of epilepsy, suggesting these conditions may share a similar cause.

## Contribution

A novel TTGTA expansion in MARCHF6 was discovered, along with a new bioinformatic tool, mixSTR, to detect complex repeat structures.

## Key findings

- A novel TTGTA expansion in MARCHF6 was found in a family with PME, containing a hidden pathogenic TTTCA expansion.
- A second family with FAME had a complex configuration of FAME3 expansion with embedded pathogenic TTTCA repeats.
- Standard testing methods missed these expansions, highlighting the need for new diagnostic approaches.

## Abstract

Repeat expansions are a known cause of progressive myoclonic epilepsy (PME) and familial adult myoclonic epilepsy (FAME). We hypothesized that PME and FAME may have an overlapping phenotypic spectrum and searched for pathogenic repeat expansions in 18 individuals from 15 families with later-onset PME or FAME. We generated whole genome sequencing data by short-read sequencing and searched for known and novel repeat expansions. No known, pathogenic repeat expansions were identified. Instead, we discovered a novel TTGTA expansion in the gene MARCHF6 at the same location as the known, pathogenic FAME3 expansion in a PME family. Targeted long-read sequencing of this locus revealed a large, complex repeat structure harbouring an expansion of the pathogenic TTTCA repeat that causes FAME, surrounded by TTTTA and TTGTA expansions. Motivated by this discovery, we developed a new bioinformatic approach, mixSTR, to search for evidence of such complex expansions and discovered an additional novel configuration of the FAME3 expansion containing hidden pathogenic TTTCA expansions embedded within a TTTTA expansion in a second family clinically diagnosed with FAME. Both families had initially tested negative for the FAME3 expansion with standard RP-PCR and short-read genome sequencing analysis. We searched large epilepsy and population cohorts but did not identify any additional new individuals with complex FAME3 expansions. These findings have two important implications. Firstly, known repeat expansion loci with unusual repeat expansions, even if not known to be pathogenic, warrant further investigation as they may contain hidden pathogenic repeat expansions. Secondly, they provide molecular support for the clinical idea that PME and FAME have an overlapping phenotypic spectrum, and that the known FAME repeat expansions should be part of the diagnostic assessment of unsolved PMEs.

Bennett et al. discovered hidden complex repeat expansions in the gene MARCHF6 in two families with rare forms of epilepsy. These expansions were missed by current repeat expansion testing but were revealed by a new analysis approach. The findings suggest that these two forms of epilepsy have an overlapping phenotype.

Graphical Abstract

## Linked entities

- **Genes:** MARCHF6 (membrane associated ring-CH-type finger 6) [NCBI Gene 10299]
- **Diseases:** progressive myoclonic epilepsy (MONDO:0020074), familial adult myoclonic epilepsy (MONDO:0019448)

## Full-text entities

- **Genes:** FAME3 [NCBI Gene 100529229]
- **Diseases:** PME (MESH:D020191), epilepsy (MESH:D004827), PMEs (MESH:C580388), FAME (MESH:C564313), adult myoclonic epilepsy (MESH:C567098)

## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12628750/full.md

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Source: https://tomesphere.com/paper/PMC12628750