Intergenerational concordance of brain structure between depressed mothers and their never‐depressed daughters

Aim Parents have significant genetic and environmental influences, which are known as intergenerational effects, on the cognition, behavior, and brain of their offspring. These intergenerational effects are observed in patients with mood disorders, with a particularly strong association of depressio...

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Published inPsychiatry and clinical neurosciences Vol. 76; no. 11; pp. 579 - 586
Main Authors Minami, Fusaka, Hirano, Jinichi, Ueda, Ryo, Takamiya, Akihiro, Yamagishi, Mika, Kamiya, Kei, Mimura, Masaru, Yamagata, Bun
Format Journal Article
LanguageEnglish
Published Melbourne John Wiley & Sons Australia, Ltd 01.11.2022
Wiley Subscription Services, Inc
Subjects
Cognition
Cortex (cingulate)
Cortex (frontal)
Cortex (parietal)
Cortex (temporal)
Daughters
depression
family
Frontal gyrus
high risk
intergenerational transmission
Magnetic resonance imaging
Mental depression
Morphometry
Mothers
MRI
Neuroimaging
Substantia grisea
Superior parietal lobule
Temporal gyrus
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Abstract Aim Parents have significant genetic and environmental influences, which are known as intergenerational effects, on the cognition, behavior, and brain of their offspring. These intergenerational effects are observed in patients with mood disorders, with a particularly strong association of depression between mothers and daughters. The main purpose of our study was to investigate female‐specific intergenerational transmission patterns in the human brain among patients with depression and their never‐depressed offspring. Methods We recruited 78 participants from 34 families, which included remitted parents with a history of depression and their never‐depressed biological offspring. We used source‐based and surface‐based morphometry analyses of magnetic resonance imaging data to examine the degree of associations in brain structure between four types of parent‐offspring dyads (i.e. mother‐daughter, mother‐son, father‐daughter, and father‐son). Results Using independent component analysis, we found a significant positive correlation of gray matter structure between exclusively the mother‐daughter dyads within brain regions located in the default mode and central executive networks, such as the bilateral anterior cingulate cortex, posterior cingulate cortex, precuneus, middle frontal gyrus, middle temporal gyrus, superior parietal lobule, and left angular gyrus. These similar observations were not identified in other three parent‐offspring dyads. Conclusions The current study provides biological evidence for greater vulnerability of daughters, but not sons, in developing depression whose mothers have a history of depression. Our findings extend our knowledge on the pathophysiology of major psychiatric conditions that show sex biases and may contribute to the development of novel interventions targeting high‐risk individuals.
AbstractList Aim Parents have significant genetic and environmental influences, which are known as intergenerational effects, on the cognition, behavior, and brain of their offspring. These intergenerational effects are observed in patients with mood disorders, with a particularly strong association of depression between mothers and daughters. The main purpose of our study was to investigate female‐specific intergenerational transmission patterns in the human brain among patients with depression and their never‐depressed offspring. Methods We recruited 78 participants from 34 families, which included remitted parents with a history of depression and their never‐depressed biological offspring. We used source‐based and surface‐based morphometry analyses of magnetic resonance imaging data to examine the degree of associations in brain structure between four types of parent‐offspring dyads (i.e. mother‐daughter, mother‐son, father‐daughter, and father‐son). Results Using independent component analysis, we found a significant positive correlation of gray matter structure between exclusively the mother‐daughter dyads within brain regions located in the default mode and central executive networks, such as the bilateral anterior cingulate cortex, posterior cingulate cortex, precuneus, middle frontal gyrus, middle temporal gyrus, superior parietal lobule, and left angular gyrus. These similar observations were not identified in other three parent‐offspring dyads. Conclusions The current study provides biological evidence for greater vulnerability of daughters, but not sons, in developing depression whose mothers have a history of depression. Our findings extend our knowledge on the pathophysiology of major psychiatric conditions that show sex biases and may contribute to the development of novel interventions targeting high‐risk individuals.
Parents have significant genetic and environmental influences, which are known as intergenerational effects, on the cognition, behavior, and brain of their offspring. These intergenerational effects are observed in patients with mood disorders, with a particularly strong association of depression between mothers and daughters. The main purpose of our study was to investigate female-specific intergenerational transmission patterns in the human brain among patients with depression and their never-depressed offspring.AIMParents have significant genetic and environmental influences, which are known as intergenerational effects, on the cognition, behavior, and brain of their offspring. These intergenerational effects are observed in patients with mood disorders, with a particularly strong association of depression between mothers and daughters. The main purpose of our study was to investigate female-specific intergenerational transmission patterns in the human brain among patients with depression and their never-depressed offspring.We recruited 78 participants from 34 families, which included remitted parents with a history of depression and their never-depressed biological offspring. We used source-based and surface-based morphometry analyses of magnetic resonance imaging data to examine the degree of associations in brain structure between four types of parent-offspring dyads (i.e. mother-daughter, mother-son, father-daughter, and father-son).METHODSWe recruited 78 participants from 34 families, which included remitted parents with a history of depression and their never-depressed biological offspring. We used source-based and surface-based morphometry analyses of magnetic resonance imaging data to examine the degree of associations in brain structure between four types of parent-offspring dyads (i.e. mother-daughter, mother-son, father-daughter, and father-son).Using independent component analysis, we found a significant positive correlation of gray matter structure between exclusively the mother-daughter dyads within brain regions located in the default mode and central executive networks, such as the bilateral anterior cingulate cortex, posterior cingulate cortex, precuneus, middle frontal gyrus, middle temporal gyrus, superior parietal lobule, and left angular gyrus. These similar observations were not identified in other three parent-offspring dyads.RESULTSUsing independent component analysis, we found a significant positive correlation of gray matter structure between exclusively the mother-daughter dyads within brain regions located in the default mode and central executive networks, such as the bilateral anterior cingulate cortex, posterior cingulate cortex, precuneus, middle frontal gyrus, middle temporal gyrus, superior parietal lobule, and left angular gyrus. These similar observations were not identified in other three parent-offspring dyads.The current study provides biological evidence for greater vulnerability of daughters, but not sons, in developing depression whose mothers have a history of depression. Our findings extend our knowledge on the pathophysiology of major psychiatric conditions that show sex biases and may contribute to the development of novel interventions targeting high-risk individuals.CONCLUSIONSThe current study provides biological evidence for greater vulnerability of daughters, but not sons, in developing depression whose mothers have a history of depression. Our findings extend our knowledge on the pathophysiology of major psychiatric conditions that show sex biases and may contribute to the development of novel interventions targeting high-risk individuals.
AimParents have significant genetic and environmental influences, which are known as intergenerational effects, on the cognition, behavior, and brain of their offspring. These intergenerational effects are observed in patients with mood disorders, with a particularly strong association of depression between mothers and daughters. The main purpose of our study was to investigate female‐specific intergenerational transmission patterns in the human brain among patients with depression and their never‐depressed offspring.MethodsWe recruited 78 participants from 34 families, which included remitted parents with a history of depression and their never‐depressed biological offspring. We used source‐based and surface‐based morphometry analyses of magnetic resonance imaging data to examine the degree of associations in brain structure between four types of parent‐offspring dyads (i.e. mother‐daughter, mother‐son, father‐daughter, and father‐son).ResultsUsing independent component analysis, we found a significant positive correlation of gray matter structure between exclusively the mother‐daughter dyads within brain regions located in the default mode and central executive networks, such as the bilateral anterior cingulate cortex, posterior cingulate cortex, precuneus, middle frontal gyrus, middle temporal gyrus, superior parietal lobule, and left angular gyrus. These similar observations were not identified in other three parent‐offspring dyads.ConclusionsThe current study provides biological evidence for greater vulnerability of daughters, but not sons, in developing depression whose mothers have a history of depression. Our findings extend our knowledge on the pathophysiology of major psychiatric conditions that show sex biases and may contribute to the development of novel interventions targeting high‐risk individuals.
Author Hirano, Jinichi
Takamiya, Akihiro
Yamagata, Bun
Ueda, Ryo
Kamiya, Kei
Mimura, Masaru
Minami, Fusaka
Yamagishi, Mika
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  email: bunyamagata75@gmail.com
  organization: Keio University School of Medicine
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Snippet Aim Parents have significant genetic and environmental influences, which are known as intergenerational effects, on the cognition, behavior, and brain of their...
AimParents have significant genetic and environmental influences, which are known as intergenerational effects, on the cognition, behavior, and brain of their...
Parents have significant genetic and environmental influences, which are known as intergenerational effects, on the cognition, behavior, and brain of their...
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SubjectTerms Cognition
Cortex (cingulate)
Cortex (frontal)
Cortex (parietal)
Cortex (temporal)
Daughters
depression
family
Frontal gyrus
high risk
intergenerational transmission
Magnetic resonance imaging
Mental depression
Morphometry
Mothers
MRI
Neuroimaging
Substantia grisea
Superior parietal lobule
Temporal gyrus
Title Intergenerational concordance of brain structure between depressed mothers and their never‐depressed daughters
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fpcn.13461
https://www.proquest.com/docview/2732144671
https://www.proquest.com/docview/2712855665
Volume 76
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