Proteome-wide assessment of differential missense variant clustering in neurodevelopmental disorders and cancer

Jeffrey K. Ng; Yilin Chen; Titilope M. Akinwe; Hillary B. Heins; Elvisa Mehinovic; Yoonhoo Chang; David H. Gutmann; Christina A. Gurnett; Zachary L. Payne; Juana G. Manuel; Rachel Karchin; Tychele N. Turner

doi:10.1016/j.xgen.2025.100807

Proteome-wide assessment of differential missense variant clustering in neurodevelopmental disorders and cancer

Jeffrey K. Ng, Yilin Chen, Titilope M. Akinwe, Hillary B. Heins, Elvisa Mehinovic, Yoonhoo Chang, David H. Gutmann, Christina A. Gurnett, Zachary L. Payne, Juana G. Manuel, Rachel Karchin, Tychele N. Turner

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

Abstract

Prior studies examining genomic variants suggest that some proteins contribute to both neurodevelopmental disorders (NDDs) and cancer. While there are several potential etiologies, here, we hypothesize that missense variation in proteins occurs in different clustering patterns, resulting in distinct phenotypic outcomes. This concept was first explored in 1D protein space and expanded using 3D protein structure models. Missense de novo variants were examined from 39,883 families with NDDs and missense somatic variants from 10,543 sequenced tumors covering five The Cancer Genome Atlas (TCGA) cancer types and two Catalog of Somatic Mutations in Cancer (COSMIC) pan-cancer aggregates of tissue types. We find 18 proteins with differential missense variation clustering in NDDs compared to cancers and 19 in cancers relative to NDDs. These proteins may be important for detailed assessments in thinking of future prognostic and therapeutic applications. We establish a framework for interpreting missense patterns in NDDs and cancer, using advances in 3D protein structure prediction.

Original language	English
Article number	100807
Journal	Cell Genomics
Volume	5
Issue number	4
DOIs	https://doi.org/10.1016/j.xgen.2025.100807
State	Published - Apr 9 2025

Keywords

3D protein structure models
cancer
clustering algorithm
de novo
missense
neurodevelopmental disorders
protein
somatic
variant interpretation

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10.1016/j.xgen.2025.100807

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title = "Proteome-wide assessment of differential missense variant clustering in neurodevelopmental disorders and cancer",

abstract = "Prior studies examining genomic variants suggest that some proteins contribute to both neurodevelopmental disorders (NDDs) and cancer. While there are several potential etiologies, here, we hypothesize that missense variation in proteins occurs in different clustering patterns, resulting in distinct phenotypic outcomes. This concept was first explored in 1D protein space and expanded using 3D protein structure models. Missense de novo variants were examined from 39,883 families with NDDs and missense somatic variants from 10,543 sequenced tumors covering five The Cancer Genome Atlas (TCGA) cancer types and two Catalog of Somatic Mutations in Cancer (COSMIC) pan-cancer aggregates of tissue types. We find 18 proteins with differential missense variation clustering in NDDs compared to cancers and 19 in cancers relative to NDDs. These proteins may be important for detailed assessments in thinking of future prognostic and therapeutic applications. We establish a framework for interpreting missense patterns in NDDs and cancer, using advances in 3D protein structure prediction.",

keywords = "3D protein structure models, cancer, clustering algorithm, de novo, missense, neurodevelopmental disorders, protein, somatic, variant interpretation",

author = "Ng, {Jeffrey K.} and Yilin Chen and Akinwe, {Titilope M.} and Heins, {Hillary B.} and Elvisa Mehinovic and Yoonhoo Chang and Gutmann, {David H.} and Gurnett, {Christina A.} and Payne, {Zachary L.} and Manuel, {Juana G.} and Rachel Karchin and Turner, {Tychele N.}",

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

year = "2025",

month = apr,

day = "9",

doi = "10.1016/j.xgen.2025.100807",

language = "English",

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AU - Ng, Jeffrey K.

AU - Chen, Yilin

AU - Akinwe, Titilope M.

AU - Heins, Hillary B.

AU - Mehinovic, Elvisa

AU - Chang, Yoonhoo

AU - Gutmann, David H.

AU - Gurnett, Christina A.

AU - Payne, Zachary L.

AU - Manuel, Juana G.

AU - Karchin, Rachel

AU - Turner, Tychele N.

PY - 2025/4/9

Y1 - 2025/4/9

N2 - Prior studies examining genomic variants suggest that some proteins contribute to both neurodevelopmental disorders (NDDs) and cancer. While there are several potential etiologies, here, we hypothesize that missense variation in proteins occurs in different clustering patterns, resulting in distinct phenotypic outcomes. This concept was first explored in 1D protein space and expanded using 3D protein structure models. Missense de novo variants were examined from 39,883 families with NDDs and missense somatic variants from 10,543 sequenced tumors covering five The Cancer Genome Atlas (TCGA) cancer types and two Catalog of Somatic Mutations in Cancer (COSMIC) pan-cancer aggregates of tissue types. We find 18 proteins with differential missense variation clustering in NDDs compared to cancers and 19 in cancers relative to NDDs. These proteins may be important for detailed assessments in thinking of future prognostic and therapeutic applications. We establish a framework for interpreting missense patterns in NDDs and cancer, using advances in 3D protein structure prediction.

AB - Prior studies examining genomic variants suggest that some proteins contribute to both neurodevelopmental disorders (NDDs) and cancer. While there are several potential etiologies, here, we hypothesize that missense variation in proteins occurs in different clustering patterns, resulting in distinct phenotypic outcomes. This concept was first explored in 1D protein space and expanded using 3D protein structure models. Missense de novo variants were examined from 39,883 families with NDDs and missense somatic variants from 10,543 sequenced tumors covering five The Cancer Genome Atlas (TCGA) cancer types and two Catalog of Somatic Mutations in Cancer (COSMIC) pan-cancer aggregates of tissue types. We find 18 proteins with differential missense variation clustering in NDDs compared to cancers and 19 in cancers relative to NDDs. These proteins may be important for detailed assessments in thinking of future prognostic and therapeutic applications. We establish a framework for interpreting missense patterns in NDDs and cancer, using advances in 3D protein structure prediction.

KW - 3D protein structure models

KW - cancer

KW - clustering algorithm

KW - de novo

KW - missense

KW - neurodevelopmental disorders

KW - protein

KW - somatic

KW - variant interpretation

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DO - 10.1016/j.xgen.2025.100807

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JO - Cell Genomics

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ER -

Proteome-wide assessment of differential missense variant clustering in neurodevelopmental disorders and cancer

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