Whole-transcriptome sequencing–based concomitant detection of viral and human genetic determinants of cutaneous lesions
Amir Hossein Saeidian, Leila Youssefian, Charles Y. Huang, Fahimeh Palizban, Mahtab Naji, Zahra Saffarian, Hamidreza Mahmoudi, Azadeh Goodarzi, Soheila Sotoudeh, Fatemeh Vahidnezhad, Maliheh Amani, Narjes Tavakoli, Ali Ajami, Samaneh Mozafarpoor, Mehrdad Teimoorian, Saeed Dorgaleleh, Sima Shokri, Mohammad Shenagari, Nima Abedi, Sirous Zeinali, Paolo Fortina, Vivien Béziat, Emmanuelle Jouanguy, Jean-Laurent Casanova, Jouni Uitto, Hassan Vahidnezhad
Amir Hossein Saeidian, Leila Youssefian, Charles Y. Huang, Fahimeh Palizban, Mahtab Naji, Zahra Saffarian, Hamidreza Mahmoudi, Azadeh Goodarzi, Soheila Sotoudeh, Fatemeh Vahidnezhad, Maliheh Amani, Narjes Tavakoli, Ali Ajami, Samaneh Mozafarpoor, Mehrdad Teimoorian, Saeed Dorgaleleh, Sima Shokri, Mohammad Shenagari, Nima Abedi, Sirous Zeinali, Paolo Fortina, Vivien Béziat, Emmanuelle Jouanguy, Jean-Laurent Casanova, Jouni Uitto, Hassan Vahidnezhad
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Resource and Technical Advance Genetics Infectious disease

Whole-transcriptome sequencing–based concomitant detection of viral and human genetic determinants of cutaneous lesions

Abstract

Severe viral infections of the skin can occur in patients with inborn errors of immunity (IEI). We report an all-in-one whole-transcriptome sequencing–based method by RNA-Seq on a single skin biopsy for concomitantly identifying the cutaneous virome and the underlying IEI. Skin biopsies were obtained from healthy and lesional skin from patients with cutaneous infections suspected to be of viral origin. RNA-Seq was utilized as the first-tier strategy for unbiased human genome-wide rare variant detection. Reads unaligned to the human genome were utilized for the exploration of 926 viruses in a viral genome catalog. In 9 families studied, the patients carried pathogenic variants in 6 human IEI genes, including IL2RG, WAS, CIB1, STK4, GATA2, and DOCK8. Gene expression profiling also confirmed pathogenicity of the human variants and permitted genome-wide homozygosity mapping, which assisted in identification of candidate genes in consanguineous families. This automated, online, all-in-one computational pipeline, called VirPy, enables simultaneous detection of the viral triggers and the human genetic variants underlying skin lesions in patients with suspected IEI and viral dermatosis.

Authors

Amir Hossein Saeidian, Leila Youssefian, Charles Y. Huang, Fahimeh Palizban, Mahtab Naji, Zahra Saffarian, Hamidreza Mahmoudi, Azadeh Goodarzi, Soheila Sotoudeh, Fatemeh Vahidnezhad, Maliheh Amani, Narjes Tavakoli, Ali Ajami, Samaneh Mozafarpoor, Mehrdad Teimoorian, Saeed Dorgaleleh, Sima Shokri, Mohammad Shenagari, Nima Abedi, Sirous Zeinali, Paolo Fortina, Vivien Béziat, Emmanuelle Jouanguy, Jean-Laurent Casanova, Jouni Uitto, Hassan Vahidnezhad

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Figure 6

Family pedigree, clinical features, cutaneous histopathology, HPV typing, and identification of STK4 mutation in a family with IEI.

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Family pedigree, clinical features, cutaneous histopathology, HPV typing...
(A) Pedigree of family 3, with the proband indicated by an arrowhead, revealed consanguinity. (B) Presence of extensive flat warts on the hands and neck of the proband. (C) Histopathology of a skin lesion from the proband showed epidermal hyperkeratosis with koilocytes, consistent with HPV infection. (D) VirPy detected HPV36 in the wart. (E and F) Stepwise bioinformatics analyses of variants, along with HM called from RNA-Seq data, revealed STK4 as the candidate gene. (G and H) Sanger sequencing and Sashimi plot of the proband’s cDNA and RNA-Seq data confirmed the presence of homozygous splicing variants in STK4: c.360+5G>A and the skipping of exon 4. (I) Expression of housekeeping and mutated genes in controls versus patient showed downregulation of STK4. The figure was generated in BioRender.