# Genome sequencing reveals CCDC88A variants in malformations of cortical development and immune dysfunction

**Authors:** Johanna Lehtonen, Anna H Hakonen, Antti Hassinen, Sanne Iversen Lurås, Meri Kaustio, Virpi Glumoff, Francisca Hinrichsen, Weiwei Li, Anna-Maija Sulonen, Sanna Wickman, Henrikki Almusa, Minttu Polso, Maarit Palomäki, Sirpa Kivirikko, Kristiina Avela, Kaarina Heiskanen, Vilja Pietiäinen, Kristiina Aittomäki, Janna Saarela

PMC · DOI: 10.1093/hmg/ddaf081 · Human Molecular Genetics · 2025-05-22

## TL;DR

This study identifies genetic changes in CCDC88A linked to brain development issues and immune problems in two siblings.

## Contribution

The first reported case of a CCDC88A missense variant and intragenic deletion causing malformations of cortical development and immune dysfunction.

## Key findings

- CCDC88A compound heterozygous variants were found in patients with MCD and immune issues.
- Girdin-deficient fibroblasts showed altered cell morphology, proliferation, and migration.
- CRISPR-Cas9 models confirmed the cellular effects of girdin deficiency.

## Abstract

Malformations of cortical development (MCDs) encompass a diverse group of genetic and clinical disorders. Here, we aimed to determine a genetic etiology for two siblings manifesting MCD, microcephaly, epilepsy, intellectual disability, and susceptibility to infections. A missense variant (NM_018084:c.929A > C, p.Asp310Ala) and an intragenic deletion (exons 14–16) in CCDC88A were identified as compound heterozygous in patients by genome sequencing. Truncating homozygous CCDC88A variants are known to cause an ultra-rare syndrome manifesting with MCD, microcephaly, seizures, and severe neurological impairment. CCDC88A encodes girdin, which is essential for various cell functions, such as actin remodeling and cell proliferation. Western blot analysis showed that the missense variant allele was expressed in fibroblasts at a level compatible with a heterozygous allele, whereas a truncated protein from the deletion allele was barely detectable. Proliferation and wound-healing assays revealed that girdin-deficient fibroblasts proliferated faster and migrated slower than controls. High-content imaging highlighted girdin-deficient fibroblasts as smaller and their actin remodeling disrupted, leading to perinuclear accumulation of endolysosomal organelles. To confirm these cellular phenotypes resulted from girdin loss, CRISPR-Cas9 edited knockout models of healthy fibroblasts were created, replicating the observations in patient cells. Additionally, the siblings exhibited reduced monocytoid and plasmacytoid dendritic cells, suggesting compromised immunity due to girdin deficiency. In summary, the study describes the first case of a CCDC88A missense variant and intragenic deletion associated with MCD. It demonstrates altered immunity and girdin-related cellular changes, such as cell morphology and proliferation-migration dichotomy, in patient and knockout fibroblasts, reinforcing the pathogenic relevance of these variants.

Graphical Abstract

## Linked entities

- **Genes:** CCDC88A (coiled-coil and HOOK domain protein 88A) [NCBI Gene 55704]
- **Proteins:** CCDC88A (coiled-coil and HOOK domain protein 88A)
- **Diseases:** microcephaly (MONDO:0001149), epilepsy (MONDO:0005027), intellectual disability (MONDO:0001071)

## Full-text entities

- **Genes:** CCDC88A (coiled-coil and HOOK domain protein 88A) [NCBI Gene 55704] {aka APE, GIRDIN, GIV, GRDN, HkRP1, KIAA1212}
- **Diseases:** intellectual disability (MESH:D008607), infections (MESH:D007239), neurological impairment (MESH:D009422), genetic and clinical disorders (MESH:D030342), MCDs (MESH:C537834), girdin deficiency (MESH:D007153), Malformations of cortical development (MESH:D054220), epilepsy (MESH:D004827), microcephaly (MESH:D008831), seizures (MESH:D012640), immune dysfunction (MESH:D007154), MCD (MESH:D012514)
- **Species:** Homo sapiens (human, species) [taxon 9606]
- **Mutations:** p.Asp310Ala
- **Cell lines:** NM_018084 — Bos taurus (Bovine), Finite cell line (CVCL_3074)

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12278729/full.md

## References

60 references — full list in the complete paper: https://tomesphere.com/paper/PMC12278729/full.md

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Source: https://tomesphere.com/paper/PMC12278729