Pleiotropic brain function of whirlin identified by a novel mutation

Carlos Aguilar; Debbie Williams; Ramakrishna Kurapati; Rasneer S. Bains; Philomena Mburu; Andy Parker; Jackie Williams; Danilo Concas; Hilda Tateossian; Andrew R. Haynes; Gareth Banks; Pratik Vikhe; Ines Heise; Marie Hutchison; Gemma Atkins; Simon Gillard; Becky Starbuck; Simona Oliveri; Andrew Blake; Siddharth Sethi; Saumya Kumar; Tanaya Bardhan; Jing Yi Jeng; Stuart L. Johnson; Lara F. Corns; Walter Marcotti; Michelle Simon; Sara Wells; Paul K. Potter; Heena V. Lad

doi:10.1016/j.isci.2024.110170

Pleiotropic brain function of whirlin identified by a novel mutation

Carlos Aguilar, Debbie Williams, Ramakrishna Kurapati, Rasneer S. Bains, Philomena Mburu, Andy Parker, Jackie Williams, Danilo Concas, Hilda Tateossian, Andrew R. Haynes, Gareth Banks, Pratik Vikhe, Ines Heise, Marie Hutchison, Gemma Atkins, Simon Gillard, Becky Starbuck, Simona Oliveri, Andrew Blake, Siddharth SethiSaumya Kumar, Tanaya Bardhan, Jing Yi Jeng, Stuart L. Johnson, Lara F. Corns, Walter Marcotti, Michelle Simon, Sara Wells, Paul K. Potter, Heena V. Lad^*

^*Corresponding author for this work

School of Medicine, Pharmacy and Biomedical Sciences

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Abstract

Despite some evidence indicating diverse roles of whirlin in neurons, the functional corollary of whirlin gene function and behavior has not been investigated or broadly characterized. A single nucleotide variant was identified from our recessive ENU-mutagenesis screen at a donor-splice site in whirlin, a protein critical for proper sensorineural hearing function. The mutation (head-bob, hb) led to partial intron-retention causing a frameshift and introducing a premature termination codon. Mutant mice had a head-bobbing phenotype and significant hyperactivity across several phenotyping tests. Lack of complementation of head-bob with whirler mutant mice confirmed the head-bob mutation as functionally distinct with compound mutants having a mild-moderate hearing defect. Utilizing transgenics, we demonstrate rescue of the hyperactive phenotype and combined with the expression profiling data conclude whirlin plays an essential role in activity-related behaviors. These results highlight a pleiotropic role of whirlin within the brain and implicate alternative, central mediated pathways in its function.

Original language	English
Article number	110170
Number of pages	20
Journal	iScience
Volume	27
Issue number	7
DOIs	https://doi.org/10.1016/j.isci.2024.110170
Publication status	Published - 4 Jun 2024

Keywords

Biological sciences
Molecular neuroscience
Neuroscience

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Pleiotropic brain function of whirlin identified by a novel mutationFinal published version, 5.33 MBLicence: CC BY

https://radar.brookes.ac.uk/radar/items/3d6af7f6-736c-431e-b11e-b327c3136542/1/

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Aguilar, C., Williams, D., Kurapati, R., Bains, R. S., Mburu, P., Parker, A., Williams, J., Concas, D., Tateossian, H., Haynes, A. R., Banks, G., Vikhe, P., Heise, I., Hutchison, M., Atkins, G., Gillard, S., Starbuck, B., Oliveri, S., Blake, A., ... Lad, H. V. (2024). Pleiotropic brain function of whirlin identified by a novel mutation. iScience, 27(7), Article 110170. https://doi.org/10.1016/j.isci.2024.110170

@article{29668db2f166472498a035faf62b532b,

title = "Pleiotropic brain function of whirlin identified by a novel mutation",

abstract = "Despite some evidence indicating diverse roles of whirlin in neurons, the functional corollary of whirlin gene function and behavior has not been investigated or broadly characterized. A single nucleotide variant was identified from our recessive ENU-mutagenesis screen at a donor-splice site in whirlin, a protein critical for proper sensorineural hearing function. The mutation (head-bob, hb) led to partial intron-retention causing a frameshift and introducing a premature termination codon. Mutant mice had a head-bobbing phenotype and significant hyperactivity across several phenotyping tests. Lack of complementation of head-bob with whirler mutant mice confirmed the head-bob mutation as functionally distinct with compound mutants having a mild-moderate hearing defect. Utilizing transgenics, we demonstrate rescue of the hyperactive phenotype and combined with the expression profiling data conclude whirlin plays an essential role in activity-related behaviors. These results highlight a pleiotropic role of whirlin within the brain and implicate alternative, central mediated pathways in its function.",

keywords = "Biological sciences, Molecular neuroscience, Neuroscience",

author = "Carlos Aguilar and Debbie Williams and Ramakrishna Kurapati and Bains, \{Rasneer S.\} and Philomena Mburu and Andy Parker and Jackie Williams and Danilo Concas and Hilda Tateossian and Haynes, \{Andrew R.\} and Gareth Banks and Pratik Vikhe and Ines Heise and Marie Hutchison and Gemma Atkins and Simon Gillard and Becky Starbuck and Simona Oliveri and Andrew Blake and Siddharth Sethi and Saumya Kumar and Tanaya Bardhan and Jeng, \{Jing Yi\} and Johnson, \{Stuart L.\} and Corns, \{Lara F.\} and Walter Marcotti and Michelle Simon and Sara Wells and Potter, \{Paul K.\} and Lad, \{Heena V.\}",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s)",

year = "2024",

month = jun,

day = "4",

doi = "10.1016/j.isci.2024.110170",

language = "English",

volume = "27",

journal = "iScience",

issn = "2589-0042",

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Aguilar, C, Williams, D, Kurapati, R, Bains, RS, Mburu, P, Parker, A, Williams, J, Concas, D, Tateossian, H, Haynes, AR, Banks, G, Vikhe, P, Heise, I, Hutchison, M, Atkins, G, Gillard, S, Starbuck, B, Oliveri, S, Blake, A, Sethi, S, Kumar, S, Bardhan, T, Jeng, JY, Johnson, SL, Corns, LF, Marcotti, W, Simon, M, Wells, S, Potter, PK & Lad, HV 2024, 'Pleiotropic brain function of whirlin identified by a novel mutation', iScience, vol. 27, no. 7, 110170. https://doi.org/10.1016/j.isci.2024.110170

TY - JOUR

T1 - Pleiotropic brain function of whirlin identified by a novel mutation

AU - Aguilar, Carlos

AU - Williams, Debbie

AU - Kurapati, Ramakrishna

AU - Bains, Rasneer S.

AU - Mburu, Philomena

AU - Parker, Andy

AU - Williams, Jackie

AU - Concas, Danilo

AU - Tateossian, Hilda

AU - Haynes, Andrew R.

AU - Banks, Gareth

AU - Vikhe, Pratik

AU - Heise, Ines

AU - Hutchison, Marie

AU - Atkins, Gemma

AU - Gillard, Simon

AU - Starbuck, Becky

AU - Oliveri, Simona

AU - Blake, Andrew

AU - Sethi, Siddharth

AU - Kumar, Saumya

AU - Bardhan, Tanaya

AU - Jeng, Jing Yi

AU - Johnson, Stuart L.

AU - Corns, Lara F.

AU - Marcotti, Walter

AU - Simon, Michelle

AU - Wells, Sara

AU - Potter, Paul K.

AU - Lad, Heena V.

PY - 2024/6/4

Y1 - 2024/6/4

N2 - Despite some evidence indicating diverse roles of whirlin in neurons, the functional corollary of whirlin gene function and behavior has not been investigated or broadly characterized. A single nucleotide variant was identified from our recessive ENU-mutagenesis screen at a donor-splice site in whirlin, a protein critical for proper sensorineural hearing function. The mutation (head-bob, hb) led to partial intron-retention causing a frameshift and introducing a premature termination codon. Mutant mice had a head-bobbing phenotype and significant hyperactivity across several phenotyping tests. Lack of complementation of head-bob with whirler mutant mice confirmed the head-bob mutation as functionally distinct with compound mutants having a mild-moderate hearing defect. Utilizing transgenics, we demonstrate rescue of the hyperactive phenotype and combined with the expression profiling data conclude whirlin plays an essential role in activity-related behaviors. These results highlight a pleiotropic role of whirlin within the brain and implicate alternative, central mediated pathways in its function.

AB - Despite some evidence indicating diverse roles of whirlin in neurons, the functional corollary of whirlin gene function and behavior has not been investigated or broadly characterized. A single nucleotide variant was identified from our recessive ENU-mutagenesis screen at a donor-splice site in whirlin, a protein critical for proper sensorineural hearing function. The mutation (head-bob, hb) led to partial intron-retention causing a frameshift and introducing a premature termination codon. Mutant mice had a head-bobbing phenotype and significant hyperactivity across several phenotyping tests. Lack of complementation of head-bob with whirler mutant mice confirmed the head-bob mutation as functionally distinct with compound mutants having a mild-moderate hearing defect. Utilizing transgenics, we demonstrate rescue of the hyperactive phenotype and combined with the expression profiling data conclude whirlin plays an essential role in activity-related behaviors. These results highlight a pleiotropic role of whirlin within the brain and implicate alternative, central mediated pathways in its function.

KW - Biological sciences

KW - Molecular neuroscience

KW - Neuroscience

UR - https://www.scopus.com/pages/publications/85195655600

U2 - 10.1016/j.isci.2024.110170

DO - 10.1016/j.isci.2024.110170

M3 - Article

AN - SCOPUS:85195655600

SN - 2589-0042

VL - 27

JO - iScience

JF - iScience

IS - 7

M1 - 110170

ER -

Pleiotropic brain function of whirlin identified by a novel mutation

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