One of the greatest achievements of health sciences is the eradication of infectious diseases such as smallpox that in the past imposed a severe burden on humankind, through global vaccination campaigns. Moreover, progress towards the eradication of others such as poliomyelitis, dracunculiasis, and yaws is being made.

In contrast, other infections that were previously contained are reemerging, due to several factors, including lack of access to vaccines due to geopolitical reasons, the rise of anti-vaccine movements, and the constant mobility of infected persons from the endemic sites.

One of such disease is diphtheria, caused by Corynebacterium diphtheriae and a few other related species such as C. ulcerans and C. pseudotuberculosis. Importantly, in France, diphtheria cases reported in 2022 increased 7-fold from the average of previously recorded cases per year in the previous 4 years and the situation in other European countries is similar.

Hence, as reported here, Hennart et al. (2023) developed DIPHTOSCAN, a free access bioinformatics tool with user-friendly interphase, aimed to easily identify, extract and interpret important genomic features such as the sublineage of the strain, the presence of the tox gene (as a string predictor for toxigenic disease) as well as genes coding other virulence factors such as fimbriae, and the presence of know resistant mechanisms towards antibiotics like penicillin and erythromycin currently used in the clinic to treat this infection.

The authors validated the performance of their tool with a large collection of genomes, including those obtained from the isolates of the 2022 outbreak in France, more than 1,200 other genomes isolated from France, Algeria, and Yemen, and more than 500 genomes from several countries from Europe, America, Africa, Asia, and Oceania that are available through the NCBI site.

DIPHTOSCAN will allow the rapid identification and surveillance of potentially dangerous strains such as those being tox-positive isolates and resistant to multiple drugs and/or first-line treatments and a better understanding of the epidemiology and evolution of this important reemerging disease.

Reference

Hennart M., Crestani C., Bridel S., Armatys N., Brémont S., Carmi-Leroy A., Landier A., Passet V., Fonteneau L., Vaux S., Toubiana J., Badell E. and Brisse S. (2023). A global Corynebacterium diphtheriae genomic framework sheds light on current diphtheria reemergence. bioRxiv, 2023.02.20.529124, ver 3 peer-reviewed and recommended by PCI Infections. https://doi.org/10.1101/2023.02.20.529124