AI Article Synopsis
- Congenital ichthyosis (CI) is a rare hereditary skin disorder characterized by symptoms like scaling and inflammation, prompting research into the skin microbiome's role in these conditions.
- A study involving 36 CI patients and 15 controls revealed novel and recurrent pathogenic variants, along with distinct microbial profiles showing reduced beneficial microbes and increased harmful ones, which correlate with heightened inflammation.
- The findings provide insights into the microbiological and immune factors affecting CI, laying the groundwork for better treatment options for patients.
Article Abstract
Background: Congenital ichthyosis (CI) is a collective group of rare hereditary skin disorders. Patients present with epidermal scaling, fissuring, chronic inflammation, and increased susceptibility to infections. Recently, there is increased interest in the skin microbiome; therefore, we hypothesized that CI patients likely exhibit an abnormal profile of epidermal microbes because of their various underlying skin barrier defects. Among recruited individuals of Southeast Asian ethnicity, we performed skin meta-genomics (i.e., whole-exome sequencing to capture the entire multi-kingdom profile, including fungi, protists, archaea, bacteria, and viruses), comparing 36 CI patients (representing seven subtypes) with that of 15 CI age-and gender-matched controls who had no family history of CI.
Results: This case-control study revealed 20 novel and 31 recurrent pathogenic variants. Microbiome meta-analysis showed distinct microbial populations, decreases in commensal microbiota, and higher colonization by pathogenic species associated with CI; these were correlated with increased production of inflammatory cytokines and Th17- and JAK/STAT-signaling pathways in peripheral blood mononuclear cells. In the wounds of CI patients, we identified specific changes in microbiota and alterations in inflammatory pathways, which are likely responsible for impaired wound healing.
Conclusions: Together, this research enhances our understanding of the microbiological, immunological, and molecular properties of CI and should provide critical information for improving therapeutic management of CI patients.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11022333 | PMC |
| http://dx.doi.org/10.1186/s40246-024-00603-x | DOI Listing |
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