Cannabinoids accumulate in mouse breast milk and differentially regulate lipid composition and lipid signaling molecules involved in infant development

•Cannabinoid (THC, CBD, or THC+CBD) treatment to mouse dams causes 1) cannabinoids (CBs) to differentially accumulate in milk, 2) widespread decreases in free fatty acids, 3) decreases in N-acyl methionine species, 4) overall increases N-linoleoyl species, and 5) differential modulation of endogenou...

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Bibliographic Details
Published in:BBA advances 2022, Vol.2, p.100054, Article 100054
Main Authors: Johnson, Clare T, de Abreu, Gabriel H Dias, Mackie, Ken, Lu, Hui-Chen, Bradshaw, Heather B
Format: Article
Language:English
Subjects:
2-AG
9-tetrahydrocannabinol
AEA
Cannabidiol
CBD
Lipids
Milk
THC
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Summary:•Cannabinoid (THC, CBD, or THC+CBD) treatment to mouse dams causes 1) cannabinoids (CBs) to differentially accumulate in milk, 2) widespread decreases in free fatty acids, 3) decreases in N-acyl methionine species, 4) overall increases N-linoleoyl species, and 5) differential modulation of endogenous CBs (eCBs) AEA, 2-AG, and their structural congeners. Our data indicate the passage of CBs to pups through breast milk and that maternal CB exposure alters breast milk lipid compositions. Maternal cannabis use during lactation may expose developing infants to cannabinoids (CBs) such as ∆-9-tetrahydrocannabinol (THC) and cannabidiol (CBD). CBs modulate lipid signaling molecules in the central nervous system in age- and cell-dependent ways, but their influence on the lipid composition of breast milk has yet to be established. This study investigates the effects of THC, CBD, or their combination on milk lipids by analyzing the stomach contents of CD1 mouse pups that have been nursed by dams injected with CBs on postnatal days (PND) 1 -10. Stomach contents were collected 2 hours after the last injection on PND10 and HPLC/MS/MS was used to identify and quantify over 80 endogenous lipid species and cannabinoids in the samples. We show that CBs differentially accumulate in milk, lead to widespread decreases in free fatty acids, decreases in N-acyl methionine species, increases N-linoleoyl species, as well as modulate levels of endogenous CBs (eCBs) AEA, 2-AG, and their structural congeners. Our data indicate the passage of CBs to pups through breast milk and that maternal CB exposure alters breast milk lipid compositions.
ISSN:2667-1603
2667-1603
DOI:10.1016/j.bbadva.2022.100054