# Benchmarking Nanopore Sequencing for CLN2 (TPP1) Mutation Detection: Integrating Rapid Genomics and Orthogonal Validation for Precision Diagnostics

**Authors:** Betül Teker, Gökce Akan, Hasan Hüseyin Kazan, Özge Özgen, Suzin Tatonyan, Mehmet Cihan Balci, Meryem Karaca, Fulya Kurekci, Edibe Pembegül Yıldız, Olcay Güngor, Adnan Deniz, Asuman Gedikbasi, Fatmahan Atalar, Gülden Fatma Gokcay, Mehves Poda

PMC · DOI: 10.3390/ijms26115037 · 2025-05-23

## TL;DR

This study evaluates the use of nanopore sequencing for detecting mutations in the TPP1 gene, which causes CLN2 disease, and confirms its effectiveness in a Turkish patient cohort.

## Contribution

The study is the first to report specific variant configurations in CLN2 disease and validates nanopore sequencing for this purpose in a high-consanguinity population.

## Key findings

- Four pathogenic TPP1 variants were identified, including novel homozygous and compound heterozygous configurations.
- ONT-LRS showed high concordance with Sanger sequencing and correlated with reduced TPP1 enzyme activity in affected individuals.
- Regional variation in TPP1 mutation patterns was observed, with the c.622C>T variant being the most prevalent in the Turkish cohort.

## Abstract

CLN2 disease (neuronal ceroid lipofuscinosis type 2) is an ultra-rare lysosomal storage disorder caused by mutations in the TPP1/CLN2 gene, resulting in impaired tripeptidyl peptidase 1 (TPP1) activity. The timely initiation of enzyme replacement therapy is pivotal for attenuating progressive and irreversible neurodegeneration. This study aimed to benchmark the performance of Oxford Nanopore long-read sequencing (ONT-LRS) for targeted TPP1 mutation detection in a Turkish CLN2 cohort and to assess its concordance with orthogonal validation methods, including Sanger sequencing and enzymatic activity assays. Using a custom-designed primer panel, the entire TPP1 gene (6846 bp) was sequenced on the Oxford Nanopore (ONT) MinIon platform in seven clinically confirmed CLN2 index patients and sixteen unaffected family members. Detected variants were validated via Sanger sequencing and correlated with TPP1 enzyme activity in leucocytes and dried blood spots. Four pathogenic or likely pathogenic TPP1 variants were identified: c.622C>T (p.Arg208*), c.857A>G (p.Asn286Ser), c.1204G>T (p.Glu402*), and c.225A>G (p.Gln75=), along with fourteen additional benign variants. Variant allele frequencies were 50% for c.622C>T, 28.6% for c.1204G>T, 14.3% for c.857A>G, and 7.1% for c.225A>G. Notably, this is the first report to document the homozygous state of the c.857A>G variant and the compound heterozygous configuration of the c225A>G and c.622C>T variants in CLN2 patients, thereby expanding the known mutational landscape. In contrast, the globally common variant c.509-1G>C was not observed, suggesting regional variation in TPP1 mutation patterns. Consistent with the prior Turkish studies, c.622C>T (p.Arg208*) was the most prevalent variant, followed by c.1204G>T (p.Glu402*). TPP1 enzymatic activity was significantly reduced in all affected individuals (p < 0.0001), supporting the functional relevance of the identified variants. ONT-LRS offers a robust, cost-effective platform for high-resolution analysis of the TPP1 gene. Integrating molecular and biochemical data improves diagnostic precision and supports timely, targeted interventions for CLN2 disease, particularly in regions with high consanguinity and limited diagnostic infrastructure.

## Linked entities

- **Genes:** TPP1 (tripeptidyl peptidase 1) [NCBI Gene 1200], TPP1 (tripeptidyl peptidase 1) [NCBI Gene 1200]
- **Proteins:** TPP1 (tripeptidyl peptidase 1)
- **Diseases:** neuronal ceroid lipofuscinosis type 2 (MONDO:0008769)

## Full-text entities

- **Genes:** TPP1 (tripeptidyl peptidase 1) [NCBI Gene 1200] {aka CLN2, GIG1, LPIC, SCAR7, TPP-1}
- **Diseases:** lysosomal storage disorder (MESH:D016464), CLN2 disease (MESH:C566857), neurodegeneration (MESH:D019636)
- **Species:** Homo sapiens (human, species) [taxon 9606]
- **Mutations:** p.Glu402*, p.Arg208*, c.509-1G>C, c.857A>G, c.1204G>T, p.Gln75=, 225A>G, c.622C>T

## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12155472/full.md

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Source: https://tomesphere.com/paper/PMC12155472