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Carboxypeptidase D deficiency causes hearing loss amenable to treatment
Memoona Ramzan, Natalie Ortiz-Vega, Mohammad Faraz Zafeer, Amanda G. Lobato, Tahir Atik, Clemer Abad, Nirmal Vadgama, Duygu Duman, Nazım Bozan, Enise Avcı Durmuşalioǧlu, Sunny Greene, Shengru Guo, Suna Tokgöz-Yılmaz, Merve Koç Yekedüz, Fatma Tuba Eminoğlu, Mehmet Aydın, Serhat Seyhan, Ioannis Karakikes, Vladimir Camarena, Maria Camila Robayo, Tijana Canic, Güney Bademci, Gaofeng Wang, Amjad Farooq, Mei-ling Joiner, Katherina Walz, Daniel F. Eberl, Jamal Nasir, R. Grace Zhai, Mustafa Tekin
Memoona Ramzan, Natalie Ortiz-Vega, Mohammad Faraz Zafeer, Amanda G. Lobato, Tahir Atik, Clemer Abad, Nirmal Vadgama, Duygu Duman, Nazım Bozan, Enise Avcı Durmuşalioǧlu, Sunny Greene, Shengru Guo, Suna Tokgöz-Yılmaz, Merve Koç Yekedüz, Fatma Tuba Eminoğlu, Mehmet Aydın, Serhat Seyhan, Ioannis Karakikes, Vladimir Camarena, Maria Camila Robayo, Tijana Canic, Güney Bademci, Gaofeng Wang, Amjad Farooq, Mei-ling Joiner, Katherina Walz, Daniel F. Eberl, Jamal Nasir, R. Grace Zhai, Mustafa Tekin
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Research Article Genetics Otology

Carboxypeptidase D deficiency causes hearing loss amenable to treatment

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Abstract

Genetic factors contributing to hearing loss (HL) are heterogeneous, and effective medical treatments remain limited. We identified 3 distinct missense variants in CPD, encoding carboxypeptidase D, in 5 individuals with congenital deafness from 3 unrelated families, affecting the catalytically active CP domain 2 of this protein. Subsequent analysis of a larger cohort from the 100,000 Genomes Project revealed an enrichment of rare protein-altering CPD variants in individuals with HL. We show that CPD localizes to sensory epithelium and nerve cells in the mouse cochlea, and the enzymatic activity of CPD, crucial for nitric oxide (NO) production through arginine processing, is impaired in affected individuals. The levels of arginine, NO, and cGMP in patient-derived fibroblasts are also decreased, leading to endoplasmic reticulum stress–mediated responses being triggered in the cells. Silencing of Cpd in organotypic mouse cochlea cultures leads to increased apoptosis. Finally, Drosophila models of CPD deficiency display defective Johnston’s organ, impaired auditory transduction, and sensory and movement abnormalities. Notably, these phenotypes are partially rescued by supplementation with arginine or sildenafil, a cGMP enhancer. Our findings establish CPD mutations as a cause of congenital HL, highlighting that the NO signaling pathway offers a promising therapeutic avenue.

Authors

Memoona Ramzan, Natalie Ortiz-Vega, Mohammad Faraz Zafeer, Amanda G. Lobato, Tahir Atik, Clemer Abad, Nirmal Vadgama, Duygu Duman, Nazım Bozan, Enise Avcı Durmuşalioǧlu, Sunny Greene, Shengru Guo, Suna Tokgöz-Yılmaz, Merve Koç Yekedüz, Fatma Tuba Eminoğlu, Mehmet Aydın, Serhat Seyhan, Ioannis Karakikes, Vladimir Camarena, Maria Camila Robayo, Tijana Canic, Güney Bademci, Gaofeng Wang, Amjad Farooq, Mei-ling Joiner, Katherina Walz, Daniel F. Eberl, Jamal Nasir, R. Grace Zhai, Mustafa Tekin

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Figure 1

Pedigrees, CPD variant enrichment in HL population, protein localization, and in silico modeling.

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Pedigrees, CPD variant enrichment in HL population, protein localization...
(A) Pedigrees of 3 participating families with variant segregation are shown. Males are represented by squares and females by circles; filled symbols indicate affected individuals; and double lines denote consanguinity. Arrows mark probands. (B) Comparison of the frequency of disease-causing variants in CPD between hearing loss (HL) cohorts and controls reveals a higher occurrence of protein-altering (2.69% vs. 2.19%), missense (0.26% vs. 0.15%), and loss-of-function (LoF) variants (0.07% vs. 0.02%) in patients, suggesting a stronger contribution of these variants to HL. The forest plot displays ORs with 95% CIs for disease-causing CPD variants. The red dotted line (OR = 1) represents no association. ORs were significantly elevated for combined variants (OR = 1.97), LoF variants (OR = 3.02), and prioritized missense variants (OR = 1.81), confirming a strong association between CPD variants and HL. (C) CPD localization in the mouse inner ear. Representative staining of P0 cochlear sections shows CPD (green), MYO7A (magenta), neurofilament (red), and DAPI (blue). The right panels show magnified views of the boxed regions. Spiral ganglion (SG), organ of Corti (OC), and stria vascularis (SV) are labeled. CPD localizes prominently to the SG, SV, and OC. Scale bar: 60 μm; right panels: 15 μm. (D and E) Ribbon representation of the structural model of the wild-type protein and the variant harboring the M563R/Q791R/R833H triplet of human CP domain 2 (residues 501–875). CP domain 2 comprises 2 subdomains: an N-terminal αβ-fold harboring a Zn2+ divalent ion (yellow sphere) as a cofactor at the heart of the active site, followed by a C-terminal β-barrel. The protein backbone is gray; side chains of the M563R/Q791R/R833H triplet are blue, with interacting partners in green. The peptidomimetic inhibitor GEMSA is depicted in red.

Copyright © 2026 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)

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