# Identification and analyses of exonic and copy number variants in spastic paraplegia

**Authors:** Anum Shafique, Ayesha Nadeem, Faiza Aslam, Humera Manzoor, Muhammad Noman, Elizabeth Wohler, P. Dane Witmer, Nara Sobreira, Sadaf Naz

PMC · DOI: 10.1038/s41598-024-64922-8 · 2024-06-21

## TL;DR

This study identifies new genetic variants linked to hereditary spastic paraplegia in three families from Punjab, highlighting the genetic diversity of the condition.

## Contribution

The study reports novel ultra-rare loss-of-function variants in SPG11, DDHD2, and AP4B1 associated with spastic paraplegia.

## Key findings

- A homozygous deletion in SPG11 was found in one family, correlating with complex movement disorders.
- Nonsense and frameshift variants in DDHD2 and AP4B1 were identified in two other families.
- All variants were ultra-rare and likely lead to transcript degradation via nonsense-mediated decay.

## Abstract

Hereditary spastic paraplegias are a diverse group of degenerative disorders that are clinically categorized as isolated; with involvement of lower limb spasticity, or symptomatic, where spastic paraplegia is complicated by further neurological features. We sought to identify the underlying genetic causes of these disorders in the participating patients. Three consanguineous families with multiple affected members were identified by visiting special schools in the Punjab Province. DNA was extracted from blood samples of the participants. Exome sequencing was performed for selected patients from the three families, and the data were filtered to identify rare homozygous variants. ExomeDepth was used for the delineation of the copy number variants. All patients had varying degrees of intellectual disabilities, poor speech development, spasticity, a wide-based gait or an inability to walk and hypertonia. In family RDHR07, a homozygous deletion involving multiple exons and introns of SPG11 (NC000015.9:g.44894055_449028del) was found and correlated with the phenotype of the patients who had spasticity and other complex movement disorders, but not those who exhibited ataxic or indeterminate symptoms as well. In families ANMD03 and RDFA06, a nonsense variant, c.985C > T;(p.Arg329Ter) in DDHD2 and a frameshift insertion‒deletion variant of AP4B1, c.965-967delACTinsC;p.(Tyr322SerfsTer14), were identified which were homozygous in the patients while the obligate carriers in the respective pedigrees were heterozygous. All variants were ultra-rare with none, or very few carriers identified in the public databases. The three loss of function variants are likely to cause nonsense-mediated decay of the respective transcripts. Our research adds to the genetic variability associated with the SPG11 and AP4B1 variants and emphasizes the genetic heterogeneity of hereditary spastic paraplegia.

## Linked entities

- **Genes:** SPG11 (SPG11 vesicle trafficking associated, spatacsin) [NCBI Gene 80208], DDHD2 (DDHD domain containing 2) [NCBI Gene 23259], AP4B1 (adaptor related protein complex 4 subunit beta 1) [NCBI Gene 10717]
- **Diseases:** hereditary spastic paraplegia (MONDO:0019064), spastic paraplegia (MONDO:0019064), intellectual disabilities (MONDO:0001071)

## Full-text entities

- **Genes:** AP4B1 (adaptor related protein complex 4 subunit beta 1) [NCBI Gene 10717] {aka BETA-4, CPSQ5, SPG47}, SPG11 (SPG11 vesicle trafficking associated, spatacsin) [NCBI Gene 80208] {aka ALS5, CMT2X, KIAA1840}, DDHD2 (DDHD domain containing 2) [NCBI Gene 23259] {aka SAMWD1, SPG54, iPLA(1)gamma, iPLA1A, iPLA1gamma, p125B}
- **Diseases:** hypertonia (MESH:D009122), degenerative disorders (MESH:D019636), intellectual disabilities (MESH:D008607), Hereditary spastic paraplegias (MESH:D015419), inability to walk (MESH:D013009), spasticity (MESH:D009128), ataxic (MESH:D001039), development (MESH:D002658), movement disorders (MESH:D009069), spastic paraplegia (MESH:D010264)
- **Species:** Homo sapiens (human, species) [taxon 9606]
- **Mutations:** c.965-967delACTinsC, c.985C > T, g.44894055_449028del

## Figures

1 figure with captions in the complete paper: https://tomesphere.com/paper/PMC11192879/full.md

---
Source: https://tomesphere.com/paper/PMC11192879