Juvenile, but not adult exposure to high‐fat diet impairs relational memory and hippocampal neurogenesis in mice

Boitard, Chloé; Etchamendy, Nicole; Sauvant, Julie; Aubert, Agnès; Tronel, Sophie; Marighetto, Aline; Layé, Sophie; Ferreira, Guillaume

doi:10.1002/hipo.22032

Cited by 224 publications

(214 citation statements)

References 37 publications

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“…Our results indicate that hippocampal newly-born neurons were decreased in the high fat diet-fed mice compared to the control diet-fed mice, which is consistent with the previous findings reported by several studies (Boitard et al, 2012;Gault et al, 2015;Hamilton et al, 2011;Hwang et al, 2008;Klein et al, 2016;Park et al, 2010;Pathak et al, 2015;Rivera et al, 2013;Vinuesa et al, 2016;Yoo et al, 2011aYoo et al, , 2011bYoo et al, , c, d, 2012Yoo et al, , 2014. In addition, our results indicate that psychological stress using a Communication Box caused a significant decrease in the DCX-positive neuroblasts/immature neurons in the hippocampus of the high fat diet-, but not in the control diet-fed mice.…”

Section: Discussionsupporting

confidence: 95%

“…We previously found that hippocampal neurogenesis is increased by chronic administration of tandospirone, a clinically available 5-HT1A receptor partial agonist with anxiolytic and antidepressant effects, under stress and non-stress conditions (Mori et al, 2014;Murata et al, 2015). Many researchers have reported that neurogenesis in the hippocampal DG is decreased in rodents with a chronic intake of obesogenic diets, including a high fat diet (Boitard et al, 2012;Gault et al, 2015;Hamilton et al, 2011;Hwang et al, 2008;Klein et al, 2016;Park et al, 2010;Pathak et al, 2015;Rivera et al, 2013;Vinuesa et al, 2016;Yoo et al, 2011aYoo et al, , b, c, d, 2012Yoo et al, , 2014. Of interest, recent data demonstrate that a decrease in hippocampal neurogenesis contributes to the dysregulation of the hypothalamuspituitary-adrenal (HPA) axis and the activation of a stress response (Dranovsky and Leonardo, 2012;Snyder et al, 2011).…”

Section: Introductionmentioning

confidence: 97%

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A high fat diet-induced decrease in hippocampal newly-born neurons of male mice is exacerbated by mild psychological stress using a Communication Box

Murata

Narisawa

Shimono

et al. 2017

Journal of Affective Disorders

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Section: Discussionsupporting

confidence: 95%

Section: Introductionmentioning

confidence: 97%

A high fat diet-induced decrease in hippocampal newly-born neurons of male mice is exacerbated by mild psychological stress using a Communication Box

Murata

Narisawa

Shimono

et al. 2017

Journal of Affective Disorders

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“…Although there are some controversial results, it seems that a high fat diet leads to a decrease in proliferation of NSPCs (Lindqvist et al, 2006;Park et al, 2010;Boitard et al, 2012), whereas caloric restriction has beneficial effects on neurogenesis, probably due to increased survival of newborn neurons (Lee et al, 2000;2002). However the mechanisms are poorly understood and whether NSPCs and their progeny are directly altering their metabolic program upon major changes incirculating nutrients is not known.…”

Section: Environmental Impact On Adult Neural Stem Cell Metabolismmentioning

confidence: 95%

Metabolic control of adult neural stem cell behavior

Knobloch

Jessberger

2015

Front. Biol.

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Neural stem cells generate new neurons throughout life in distinct regions of the mammalian brain. This process, called adult neurogenesis, is important for tissue homeostasis and physiological brain function. In addition, failing or altered neurogenesis has been associated with a number of diseases such as major depression and epilepsy. Thus, understanding the molecular mechanisms governing the neurogenic process in the adult brain may enable future therapeutic approaches to target neural stem/progenitor cells (NSPCs) and their progeny to ameliorate disease symptoms and/or disease progression. Recently, the control of cellular metabolism has emerged as a regulator of NSPC activity in the adult brain. Here we review recent findings that attempt to describe stage-specific modulations of metabolism to ensure proper neurogenesis and suggest future avenues of research aiming to understand how metabolism affects NSPC behavior.

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“…For instance, hippocampal and amygdala functioning are similarly affected by the amount of time individuals have been exposed to a Western diet. More specifically, it has been shown that a Western diet impacts hippocampal [12]) and amygdala functioning [13] more in the juvenile period than in the adult period. They found similar results for amygdalian functioning.…”

Section: Outstanding Questionsmentioning

confidence: 99%

“…However, while this consumption impairs hippocampal-dependent memory, it may increase the amygdala-dependent one [131]. Moreover, the impact of a Western diet is faster on hippocampal functioning than on amygdala functioning, as the hippocampal functioning changes earlier than the amygdalian one [12,13]. It is however not currently known to what extent the hippocampal functioning's change may drive the amygdalian one.…”

Section: Outstanding Questionsmentioning

confidence: 99%

The anterior medial temporal lobes: Their role in food intake and body weight regulation

Coppin

2016

Physiology & Behavior

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• The amygdala and hippocampus play a major role in food intake and weight regulation.• These functions are far less known to cognitive and affective scientists.• This review uniquely expands on the interactions between these two brain structures. a b s t r a c t a r t i c l e i n f o The anterior medial temporal lobes are one of the most studied parts of the brain. Classically, their two main structures -the amygdalae and the hippocampi -have been linked to key cognitive and affective functions, related in particular to learning and memory. Based on abundant evidence, we will argue for an alternative but complementary point of view: they may also play a major role in food intake and body weight regulation. First, an overview is given of early clinical evidence in this line of thought. Subsequently, empirical evidence is presented on how food intake, including in the extreme case of obesity, may relate to amygdalian and hippocampal functioning. The focus is on the amygdala's role in processing the relevance of food stimuli, cue-induced feeding, and stress-induced eating and on the hippocampus' involvement in the use of interoceptive signals of hunger and satiety, as well as memory and inhibitory processes related to food intake. Additionally, an elaboration takes place on possible reciprocal links between food intake, body weight, and amygdala and hippocampus functioning. Finally, issues that seemed particularly critical for future research in the field are discussed.

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Juvenile, but not adult exposure to high‐fat diet impairs relational memory and hippocampal neurogenesis in mice

Cited by 224 publications

References 37 publications

A high fat diet-induced decrease in hippocampal newly-born neurons of male mice is exacerbated by mild psychological stress using a Communication Box

A high fat diet-induced decrease in hippocampal newly-born neurons of male mice is exacerbated by mild psychological stress using a Communication Box

Metabolic control of adult neural stem cell behavior

The anterior medial temporal lobes: Their role in food intake and body weight regulation

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