Recurrent and Novel Pathogenic Variants in Genes Involved with Hearing Loss in the Pakistani Population

Madiha Shadab; Afif Ben-Mahmoud; Luis Nicolás Martínez Völter; Ansar Ahmed Abbasi; Bonsu Ku; Ahsan Ejaz; Zahid Latif; Vijay Gupta; Daniel Owrang; Mi Hyeon Jang; Zijin Zhang; Rahema Mohammad; Henry Houlden; Hyung Goo Kim; Barbara Vona

doi:10.1007/s40291-025-00782-w

Recurrent and Novel Pathogenic Variants in Genes Involved with Hearing Loss in the Pakistani Population

Madiha Shadab^*, Afif Ben-Mahmoud, Luis Nicolás Martínez Völter, Ansar Ahmed Abbasi, Bonsu Ku, Ahsan Ejaz, Zahid Latif, Vijay Gupta, Daniel Owrang, Mi Hyeon Jang, Zijin Zhang, Rahema Mohammad, Henry Houlden, Hyung Goo Kim^*, Barbara Vona^*

^*Corresponding author for this work

QBRI - Neurological Disorders Research Center

Research output: Contribution to journal › Article › peer-review

Abstract

Background: Molecular diagnostic rates for hereditary hearing loss vary by genetic ancestry, highlighting the importance of population-specific studies. In Pakistan, where consanguineous marriages are prevalent, genetic research has identified many autosomal recessive genes, advancing understanding of rare and novel hearing loss mechanisms. This study aimed to identify pathogenic genetic variants in 31 families from Azad Kashmir, Pakistan, presenting non-syndromic hearing loss. Methods: We conducted exome sequencing and bioinformatics analysis, and targeted gene sequencing on 31 Pakistani families with hearing loss. Results: We identified ten pathogenic, three likely pathogenic variants, and one variant of uncertain significance, comprising six nonsense, four missense, three frameshift, and one deep intronic variant, across ten hearing loss-associated genes (MYO15A, GJB2, SLC26A4, TMC1, HGF, TMIE, SLC19A2, KCNE1, ILDR, PCDH15 and MYO6) in 25 families. The overall diagnostic rate, including families with pathogenic and likely pathogenic variants, was 77.4%. GJB2 was the most frequently affected gene, identified in seven families. Thirteen out of 14 identified variants were homozygous. Notably, we identified two novel variants: MYO15A (NM_016239.4, DFNB3) c.870C>G, p.(Tyr290*) and MYO6 (NM_016239.4, DFNB37) c.3465del, p.(Pro1156Leufs*9). Additionally, we identified c.10475dupA, p.(Leu3493Alafs*25) in MYO15A (NM_016239.4, DFNB3) and c.617T>A, p.(Leu206*) in SLC26A4 (NM_000441.2, DFNB4), previously documented in ClinVar but unpublished. We also propose SLC19A2 as a candidate gene presenting as non-syndromic hearing loss, despite its association with thiamine-responsive megaloblastic anemia syndrome. Conclusion: Our work expands the genotypic and phenotypic spectrum of hearing loss by emphasizing the importance of investigating under-represented groups to identify unique genetic variants and clinical characteristics. Such efforts deepen understanding of genetic diversity in under-represented populations to improve diagnosis and treatment strategies.

Original language	English
Pages (from-to)	519-537
Number of pages	19
Journal	Molecular Diagnosis and Therapy
Volume	29
Issue number	4
DOIs	https://doi.org/10.1007/s40291-025-00782-w
Publication status	Published - 16 May 2025

Keywords

Deafness
Gjb2
Identification
Mutations
Prevalence

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Shadab, M., Ben-Mahmoud, A., Martínez Völter, L. N., Abbasi, A. A., Ku, B., Ejaz, A., Latif, Z., Gupta, V., Owrang, D., Jang, M. H., Zhang, Z., Mohammad, R., Houlden, H., Kim, H. G., & Vona, B. (2025). Recurrent and Novel Pathogenic Variants in Genes Involved with Hearing Loss in the Pakistani Population. Molecular Diagnosis and Therapy, 29(4), 519-537. https://doi.org/10.1007/s40291-025-00782-w

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title = "Recurrent and Novel Pathogenic Variants in Genes Involved with Hearing Loss in the Pakistani Population",

abstract = "Background: Molecular diagnostic rates for hereditary hearing loss vary by genetic ancestry, highlighting the importance of population-specific studies. In Pakistan, where consanguineous marriages are prevalent, genetic research has identified many autosomal recessive genes, advancing understanding of rare and novel hearing loss mechanisms. This study aimed to identify pathogenic genetic variants in 31 families from Azad Kashmir, Pakistan, presenting non-syndromic hearing loss. Methods: We conducted exome sequencing and bioinformatics analysis, and targeted gene sequencing on 31 Pakistani families with hearing loss. Results: We identified ten pathogenic, three likely pathogenic variants, and one variant of uncertain significance, comprising six nonsense, four missense, three frameshift, and one deep intronic variant, across ten hearing loss-associated genes (MYO15A, GJB2, SLC26A4, TMC1, HGF, TMIE, SLC19A2, KCNE1, ILDR, PCDH15 and MYO6) in 25 families. The overall diagnostic rate, including families with pathogenic and likely pathogenic variants, was 77.4\%. GJB2 was the most frequently affected gene, identified in seven families. Thirteen out of 14 identified variants were homozygous. Notably, we identified two novel variants: MYO15A (NM\_016239.4, DFNB3) c.870C>G, p.(Tyr290*) and MYO6 (NM\_016239.4, DFNB37) c.3465del, p.(Pro1156Leufs*9). Additionally, we identified c.10475dupA, p.(Leu3493Alafs*25) in MYO15A (NM\_016239.4, DFNB3) and c.617T>A, p.(Leu206*) in SLC26A4 (NM\_000441.2, DFNB4), previously documented in ClinVar but unpublished. We also propose SLC19A2 as a candidate gene presenting as non-syndromic hearing loss, despite its association with thiamine-responsive megaloblastic anemia syndrome. Conclusion: Our work expands the genotypic and phenotypic spectrum of hearing loss by emphasizing the importance of investigating under-represented groups to identify unique genetic variants and clinical characteristics. Such efforts deepen understanding of genetic diversity in under-represented populations to improve diagnosis and treatment strategies.",

keywords = "Deafness, Gjb2, Identification, Mutations, Prevalence",

author = "Madiha Shadab and Afif Ben-Mahmoud and \{Mart{\'i}nez V{\"o}lter\}, \{Luis Nicol{\'a}s\} and Abbasi, \{Ansar Ahmed\} and Bonsu Ku and Ahsan Ejaz and Zahid Latif and Vijay Gupta and Daniel Owrang and Jang, \{Mi Hyeon\} and Zijin Zhang and Rahema Mohammad and Henry Houlden and Kim, \{Hyung Goo\} and Barbara Vona",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = may,

day = "16",

doi = "10.1007/s40291-025-00782-w",

language = "English",

volume = "29",

pages = "519--537",

journal = "Molecular Diagnosis and Therapy",

issn = "1177-1062",

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Shadab, M, Ben-Mahmoud, A, Martínez Völter, LN, Abbasi, AA, Ku, B, Ejaz, A, Latif, Z, Gupta, V, Owrang, D, Jang, MH, Zhang, Z, Mohammad, R, Houlden, H, Kim, HG & Vona, B 2025, 'Recurrent and Novel Pathogenic Variants in Genes Involved with Hearing Loss in the Pakistani Population', Molecular Diagnosis and Therapy, vol. 29, no. 4, pp. 519-537. https://doi.org/10.1007/s40291-025-00782-w

TY - JOUR

T1 - Recurrent and Novel Pathogenic Variants in Genes Involved with Hearing Loss in the Pakistani Population

AU - Shadab, Madiha

AU - Ben-Mahmoud, Afif

AU - Martínez Völter, Luis Nicolás

AU - Abbasi, Ansar Ahmed

AU - Ku, Bonsu

AU - Ejaz, Ahsan

AU - Latif, Zahid

AU - Gupta, Vijay

AU - Owrang, Daniel

AU - Jang, Mi Hyeon

AU - Zhang, Zijin

AU - Mohammad, Rahema

AU - Houlden, Henry

AU - Kim, Hyung Goo

AU - Vona, Barbara

PY - 2025/5/16

Y1 - 2025/5/16

N2 - Background: Molecular diagnostic rates for hereditary hearing loss vary by genetic ancestry, highlighting the importance of population-specific studies. In Pakistan, where consanguineous marriages are prevalent, genetic research has identified many autosomal recessive genes, advancing understanding of rare and novel hearing loss mechanisms. This study aimed to identify pathogenic genetic variants in 31 families from Azad Kashmir, Pakistan, presenting non-syndromic hearing loss. Methods: We conducted exome sequencing and bioinformatics analysis, and targeted gene sequencing on 31 Pakistani families with hearing loss. Results: We identified ten pathogenic, three likely pathogenic variants, and one variant of uncertain significance, comprising six nonsense, four missense, three frameshift, and one deep intronic variant, across ten hearing loss-associated genes (MYO15A, GJB2, SLC26A4, TMC1, HGF, TMIE, SLC19A2, KCNE1, ILDR, PCDH15 and MYO6) in 25 families. The overall diagnostic rate, including families with pathogenic and likely pathogenic variants, was 77.4%. GJB2 was the most frequently affected gene, identified in seven families. Thirteen out of 14 identified variants were homozygous. Notably, we identified two novel variants: MYO15A (NM_016239.4, DFNB3) c.870C>G, p.(Tyr290*) and MYO6 (NM_016239.4, DFNB37) c.3465del, p.(Pro1156Leufs*9). Additionally, we identified c.10475dupA, p.(Leu3493Alafs*25) in MYO15A (NM_016239.4, DFNB3) and c.617T>A, p.(Leu206*) in SLC26A4 (NM_000441.2, DFNB4), previously documented in ClinVar but unpublished. We also propose SLC19A2 as a candidate gene presenting as non-syndromic hearing loss, despite its association with thiamine-responsive megaloblastic anemia syndrome. Conclusion: Our work expands the genotypic and phenotypic spectrum of hearing loss by emphasizing the importance of investigating under-represented groups to identify unique genetic variants and clinical characteristics. Such efforts deepen understanding of genetic diversity in under-represented populations to improve diagnosis and treatment strategies.

AB - Background: Molecular diagnostic rates for hereditary hearing loss vary by genetic ancestry, highlighting the importance of population-specific studies. In Pakistan, where consanguineous marriages are prevalent, genetic research has identified many autosomal recessive genes, advancing understanding of rare and novel hearing loss mechanisms. This study aimed to identify pathogenic genetic variants in 31 families from Azad Kashmir, Pakistan, presenting non-syndromic hearing loss. Methods: We conducted exome sequencing and bioinformatics analysis, and targeted gene sequencing on 31 Pakistani families with hearing loss. Results: We identified ten pathogenic, three likely pathogenic variants, and one variant of uncertain significance, comprising six nonsense, four missense, three frameshift, and one deep intronic variant, across ten hearing loss-associated genes (MYO15A, GJB2, SLC26A4, TMC1, HGF, TMIE, SLC19A2, KCNE1, ILDR, PCDH15 and MYO6) in 25 families. The overall diagnostic rate, including families with pathogenic and likely pathogenic variants, was 77.4%. GJB2 was the most frequently affected gene, identified in seven families. Thirteen out of 14 identified variants were homozygous. Notably, we identified two novel variants: MYO15A (NM_016239.4, DFNB3) c.870C>G, p.(Tyr290*) and MYO6 (NM_016239.4, DFNB37) c.3465del, p.(Pro1156Leufs*9). Additionally, we identified c.10475dupA, p.(Leu3493Alafs*25) in MYO15A (NM_016239.4, DFNB3) and c.617T>A, p.(Leu206*) in SLC26A4 (NM_000441.2, DFNB4), previously documented in ClinVar but unpublished. We also propose SLC19A2 as a candidate gene presenting as non-syndromic hearing loss, despite its association with thiamine-responsive megaloblastic anemia syndrome. Conclusion: Our work expands the genotypic and phenotypic spectrum of hearing loss by emphasizing the importance of investigating under-represented groups to identify unique genetic variants and clinical characteristics. Such efforts deepen understanding of genetic diversity in under-represented populations to improve diagnosis and treatment strategies.

KW - Deafness

KW - Gjb2

KW - Identification

KW - Mutations

KW - Prevalence

UR - http://www.scopus.com/inward/record.url?scp=105005110586&partnerID=8YFLogxK

U2 - 10.1007/s40291-025-00782-w

DO - 10.1007/s40291-025-00782-w

M3 - Article

AN - SCOPUS:105005110586

SN - 1177-1062

VL - 29

SP - 519

EP - 537

JO - Molecular Diagnosis and Therapy

JF - Molecular Diagnosis and Therapy

IS - 4

ER -

Recurrent and Novel Pathogenic Variants in Genes Involved with Hearing Loss in the Pakistani Population

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Keywords

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