Preimplantation or gestation/lactation high-fat diet alters adult offspring metabolism and neurogenesis
Preimplantation or gestation/lactation high-fat diet alters adult offspring metabolism and neurogenesis
Poor maternal nutrition during pregnancy is known to impair fetal development. Moreover, the preimplantation period is vulnerable to adverse programming of disease. Here, we investigated the effect of a mouse maternal high-fat diet in healthy non-obese dams during preimplantation or throughout pregnancy and lactation on metabolism-related parameters and hippocampal neurogenesis in adult offspring. Female mice were fed from conception either a normal fat diet (normal fat diet group) or high-fat diet throughout gestation and lactation (high-fat diet group), or high-fat diet only during preimplantation (embryonic high-fat diet group, high-fat diet up to E3.5, normal fat diet thereafter). Maternal high-fat diet caused changes in the offspring, including increased systolic blood pressure, diurnal activity, respiratory quotient, and energy expenditure in high-fat diet females, and increased systolic blood pressure and respiratory quotient but decreased energy expenditure in high-fat diet males. High-fat diet males had a higher density of newborn neurons and a lower density of mature neurons in the dentate gyrus, indicating that exposure to a maternal high-fat diet may regulate adult neurogenesis. A maternal high-fat diet also increased the density of astrocytes and microglia in the hippocampus of high-fat diet males and females. Generally, a graded response (normal fat diet < embryonic high-fat < high-fat diet) was observed, with only 3 days of high-fat diet exposure altering offspring energy metabolism and hippocampal cell density. Thus, early maternal exposure to a fatty diet, well before neural differentiation begins and independently of maternal obesity, is sufficient to perturb offspring energy metabolism and brain physiology with lifetime consequences.
brain development, metabolic health, nutrition, offspring long-term health, peri-conception
Ojeda Pedraza, Diego Armando
967ac799-26ba-4589-b507-4a88a1ca1859
Hutton, Oliver James
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Hopkins, Robert
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Cagampang, Felino
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Smyth, Neil
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Fleming, Thomas
2abf761a-e5a1-4fa7-a2c8-12e32d5d4c03
Eckert, Judith
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Willaime-Morawek, Sandrine
24a2981f-aa9e-4bf6-ad12-2ccf6b49f1c0
29 March 2023
Ojeda Pedraza, Diego Armando
967ac799-26ba-4589-b507-4a88a1ca1859
Hutton, Oliver James
2127307e-5e63-45ed-82de-04238018c11b
Hopkins, Robert
552437a2-8db0-4f2b-9d04-4d961720a8ba
Cagampang, Felino
7cf57d52-4a65-4554-8306-ed65226bc50e
Smyth, Neil
0eba2a40-3b43-4d40-bb64-621bd7e9d505
Fleming, Thomas
2abf761a-e5a1-4fa7-a2c8-12e32d5d4c03
Eckert, Judith
729bfa49-7053-458d-8e84-3e70e4d98e57
Willaime-Morawek, Sandrine
24a2981f-aa9e-4bf6-ad12-2ccf6b49f1c0
Ojeda Pedraza, Diego Armando, Hutton, Oliver James, Hopkins, Robert, Cagampang, Felino, Smyth, Neil, Fleming, Thomas, Eckert, Judith and Willaime-Morawek, Sandrine
(2023)
Preimplantation or gestation/lactation high-fat diet alters adult offspring metabolism and neurogenesis.
Brain Communications, 5 (2), [fcad093].
(doi:10.1093/braincomms/fcad093).
Abstract
Poor maternal nutrition during pregnancy is known to impair fetal development. Moreover, the preimplantation period is vulnerable to adverse programming of disease. Here, we investigated the effect of a mouse maternal high-fat diet in healthy non-obese dams during preimplantation or throughout pregnancy and lactation on metabolism-related parameters and hippocampal neurogenesis in adult offspring. Female mice were fed from conception either a normal fat diet (normal fat diet group) or high-fat diet throughout gestation and lactation (high-fat diet group), or high-fat diet only during preimplantation (embryonic high-fat diet group, high-fat diet up to E3.5, normal fat diet thereafter). Maternal high-fat diet caused changes in the offspring, including increased systolic blood pressure, diurnal activity, respiratory quotient, and energy expenditure in high-fat diet females, and increased systolic blood pressure and respiratory quotient but decreased energy expenditure in high-fat diet males. High-fat diet males had a higher density of newborn neurons and a lower density of mature neurons in the dentate gyrus, indicating that exposure to a maternal high-fat diet may regulate adult neurogenesis. A maternal high-fat diet also increased the density of astrocytes and microglia in the hippocampus of high-fat diet males and females. Generally, a graded response (normal fat diet < embryonic high-fat < high-fat diet) was observed, with only 3 days of high-fat diet exposure altering offspring energy metabolism and hippocampal cell density. Thus, early maternal exposure to a fatty diet, well before neural differentiation begins and independently of maternal obesity, is sufficient to perturb offspring energy metabolism and brain physiology with lifetime consequences.
Text
fcad093
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Accepted/In Press date: 27 March 2023
Published date: 29 March 2023
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© 2023 The Author(s). Published by Oxford University Press on behalf of the Guarantors of Brain.
Keywords:
brain development, metabolic health, nutrition, offspring long-term health, peri-conception
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Local EPrints ID: 476596
URI: http://eprints.soton.ac.uk/id/eprint/476596
ISSN: 2632-1297
PURE UUID: a78e332b-94bf-4c78-afa1-bd470cb5401c
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Date deposited: 09 May 2023 17:02
Last modified: 14 Aug 2024 01:42
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Author:
Diego Armando Ojeda Pedraza
Author:
Oliver James Hutton
Author:
Robert Hopkins
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