PPP3CA gene-related developmental and epileptic encephalopathy: Expanding the electro-clinical phenotype.

PURPOSE

The objective of this study is to characterize the electro-clinical phenotype of individuals affected by the rare PPP3CA gene-related developmental and epileptic encephalopathy (DEE).

METHODS

We provide a detailed electro-clinical description of four previously unreported subjects, with unremarkable structural brain MRI and a normal screening for inborn errors of metabolism, who carry pathogenic variants within the regulatory domain of the PPP3CA gene, which encodes for calcineurin. We also conducted a literature review via PubMed and SCOPUS (up to December 2023) to collect all the studies reporting clinical details of subjects with PPP3CA pathogenic variants within the regulatory domain.

RESULTS

Our in-depth investigation reveals two distinct electro-clinical phenotypes with unique interictal and ictal patterns. Pathogenic variants within the calmodulin-binding domain result in childhood-onset epilepsy with focal and generalized seizures, developmental and intellectual impairments. Pathogenic variants within the regulatory domain lead to early onset drug-resistant severe epilepsy and potentially fatal outcomes. Comparative analysis with existing literature corroborates the notion that truncating mutations, prevalent in the regulatory domain but also possible in the calmodulin-binding domain, consistently associate with more profound disabilities and drug-resistant epilepsy.

CONCLUSION

Our study emphasizes the critical role of pathogenic variants' type and location on the severity of PPP3CA-related DEE. We also speculate, based on peculiar EEG patterns, on potential pathophysiological mechanisms involving calcineurin dysfunction and calcium homeostasis. In order to improve our understanding of this rare DEE, we need both collaborative efforts to gather larger cohorts and further experimental studies.