Transcriptomic changes in the frontal cortex associated with paternal age

Rebecca G. Smith; Cathy Fernandes; Rachel Kember; Leonard C. Schalkwyk; Joseph Buxbaum; Abraham Reichenberg; Jonathan Mill

doi:10.1186/2040-2392-5-24

Transcriptomic changes in the frontal cortex associated with paternal age

Rebecca G. Smith, Cathy Fernandes, Rachel Kember, Leonard C. Schalkwyk, Joseph Buxbaum, Abraham Reichenberg, Jonathan Mill^*

^*Corresponding author for this work

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

12 Citations (Scopus)

Abstract

Background: Advanced paternal age is robustly associated with several human neuropsychiatric disorders, particularly autism. The precise mechanism(s) mediating the paternal age effect are not known, but they are thought to involve the accumulation of de novo (epi)genomic alterations. In this study we investigate differences in the frontal cortex transcriptome in a mouse model of advanced paternal age.

Findings: Transcriptomic profiling was undertaken for medial prefrontal cortex tissue dissected from the male offspring of young fathers (2 month old, 4 sires, n = 16 offspring) and old fathers (10 month old, 6 sires, n = 16 offspring) in a mouse model of advancing paternal age. We found a number of differentially expressed genes in the offspring of older fathers, many previously implicated in the aetiology of autism. Pathway analysis highlighted significant enrichment for changes in functional networks involved in inflammation and inflammatory disease, which are also implicated in autism.

Conclusions: We observed widespread alterations to the transcriptome associated with advanced paternal age with an enrichment of genes associated with inflammation, an interesting observation given previous evidence linking the immune system to several neuropsychiatric disorders including autism.

Original language	English
Article number	24
Number of pages	7
Journal	Molecular Autism
Volume	5
DOIs	https://doi.org/10.1186/2040-2392-5-24
Publication status	Published - 23 Mar 2014

Keywords

Autism
Advanced paternal age
Gene expression
Transcriptome
Inflammation
Immune response
Brain
AUTISM SPECTRUM DISORDERS
DE-NOVO MUTATIONS
LARGE GENE LISTS
DIFFERENTIAL REGULATION
NEUROTROPHIC FACTOR
EXPRESSION
BRAIN
MICROARRAY
PATHWAYS
PROTEIN

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1186/2040-2392-5-24

Cite this

@article{96de64a90e8c47b194ead182aeebf132,

title = "Transcriptomic changes in the frontal cortex associated with paternal age",

abstract = "Background: Advanced paternal age is robustly associated with several human neuropsychiatric disorders, particularly autism. The precise mechanism(s) mediating the paternal age effect are not known, but they are thought to involve the accumulation of de novo (epi)genomic alterations. In this study we investigate differences in the frontal cortex transcriptome in a mouse model of advanced paternal age.Findings: Transcriptomic profiling was undertaken for medial prefrontal cortex tissue dissected from the male offspring of young fathers (2 month old, 4 sires, n = 16 offspring) and old fathers (10 month old, 6 sires, n = 16 offspring) in a mouse model of advancing paternal age. We found a number of differentially expressed genes in the offspring of older fathers, many previously implicated in the aetiology of autism. Pathway analysis highlighted significant enrichment for changes in functional networks involved in inflammation and inflammatory disease, which are also implicated in autism.Conclusions: We observed widespread alterations to the transcriptome associated with advanced paternal age with an enrichment of genes associated with inflammation, an interesting observation given previous evidence linking the immune system to several neuropsychiatric disorders including autism.",

keywords = "Autism, Advanced paternal age, Gene expression, Transcriptome, Inflammation, Immune response, Brain, AUTISM SPECTRUM DISORDERS, DE-NOVO MUTATIONS, LARGE GENE LISTS, DIFFERENTIAL REGULATION, NEUROTROPHIC FACTOR, EXPRESSION, BRAIN, MICROARRAY, PATHWAYS, PROTEIN",

author = "Smith, {Rebecca G.} and Cathy Fernandes and Rachel Kember and Schalkwyk, {Leonard C.} and Joseph Buxbaum and Abraham Reichenberg and Jonathan Mill",

year = "2014",

month = mar,

day = "23",

doi = "10.1186/2040-2392-5-24",

language = "English",

volume = "5",

journal = "Molecular Autism",

issn = "2040-2392",

publisher = "BioMed Central",

}

TY - JOUR

T1 - Transcriptomic changes in the frontal cortex associated with paternal age

AU - Smith, Rebecca G.

AU - Fernandes, Cathy

AU - Kember, Rachel

AU - Schalkwyk, Leonard C.

AU - Buxbaum, Joseph

AU - Reichenberg, Abraham

AU - Mill, Jonathan

PY - 2014/3/23

Y1 - 2014/3/23

N2 - Background: Advanced paternal age is robustly associated with several human neuropsychiatric disorders, particularly autism. The precise mechanism(s) mediating the paternal age effect are not known, but they are thought to involve the accumulation of de novo (epi)genomic alterations. In this study we investigate differences in the frontal cortex transcriptome in a mouse model of advanced paternal age.Findings: Transcriptomic profiling was undertaken for medial prefrontal cortex tissue dissected from the male offspring of young fathers (2 month old, 4 sires, n = 16 offspring) and old fathers (10 month old, 6 sires, n = 16 offspring) in a mouse model of advancing paternal age. We found a number of differentially expressed genes in the offspring of older fathers, many previously implicated in the aetiology of autism. Pathway analysis highlighted significant enrichment for changes in functional networks involved in inflammation and inflammatory disease, which are also implicated in autism.Conclusions: We observed widespread alterations to the transcriptome associated with advanced paternal age with an enrichment of genes associated with inflammation, an interesting observation given previous evidence linking the immune system to several neuropsychiatric disorders including autism.

AB - Background: Advanced paternal age is robustly associated with several human neuropsychiatric disorders, particularly autism. The precise mechanism(s) mediating the paternal age effect are not known, but they are thought to involve the accumulation of de novo (epi)genomic alterations. In this study we investigate differences in the frontal cortex transcriptome in a mouse model of advanced paternal age.Findings: Transcriptomic profiling was undertaken for medial prefrontal cortex tissue dissected from the male offspring of young fathers (2 month old, 4 sires, n = 16 offspring) and old fathers (10 month old, 6 sires, n = 16 offspring) in a mouse model of advancing paternal age. We found a number of differentially expressed genes in the offspring of older fathers, many previously implicated in the aetiology of autism. Pathway analysis highlighted significant enrichment for changes in functional networks involved in inflammation and inflammatory disease, which are also implicated in autism.Conclusions: We observed widespread alterations to the transcriptome associated with advanced paternal age with an enrichment of genes associated with inflammation, an interesting observation given previous evidence linking the immune system to several neuropsychiatric disorders including autism.

KW - Autism

KW - Advanced paternal age

KW - Gene expression

KW - Transcriptome

KW - Inflammation

KW - Immune response

KW - Brain

KW - AUTISM SPECTRUM DISORDERS

KW - DE-NOVO MUTATIONS

KW - LARGE GENE LISTS

KW - DIFFERENTIAL REGULATION

KW - NEUROTROPHIC FACTOR

KW - EXPRESSION

KW - BRAIN

KW - MICROARRAY

KW - PATHWAYS

KW - PROTEIN

U2 - 10.1186/2040-2392-5-24

DO - 10.1186/2040-2392-5-24

M3 - Article

SN - 2040-2392

VL - 5

JO - Molecular Autism

JF - Molecular Autism

M1 - 24

ER -

Transcriptomic changes in the frontal cortex associated with paternal age

Abstract

Keywords

UN SDGs

Access to Document

Fingerprint

Cite this