Abstract
Prenatal cannabis use is a significant problem and poses important health risks for the developing fetus. The molecular mechanisms underlying these changes are not fully elucidated but are thought to be attributed to delta-9-tetrahydrocannabinol (THC), the main bioactive constituent of cannabis. It has been reported that THC may target the mitochondria in several tissue types, including placental tissue and trophoblast cell lines, and alter their function. In the present study, in response to 48-h THC treatment of the human extravillous trophoblast cell line HTR8/SVneo, we demonstrate that cell proliferation and invasion are significantly reduced. We further demonstrate THC-treatment elevated levels of cellular reactive oxygen species and markers of lipid damage. This was accompanied by evidence of increased mitochondrial fission. We also observed increased expression of cellular stress markers, HSP70 and HSP60, following exposure to THC. These effects were coincident with reduced mitochondrial respiratory function and a decrease in mitochondrial membrane potential. Taken together, our results suggest that THC can induce mitochondrial dysfunction and reduce trophoblast invasion; outcomes that have been previously linked to poor placentation. We also demonstrate that these changes in HTR8/SVneo biology may be variably mediated by cannabinoid receptors CB1 and CB2.
Highlights
Prenatal cannabis use is a significant problem and poses important health risks for the developing fetus
Given our observed indicators of mitochondrial dysfunction, we investigated whether THC decreased the expression of the proteins which comprise the electron transport chain
Since mitochondrial function is directly linked to mitochondrial membrane polarization state[47], we investigated the changes in mitochondrial aerobic metabolism that occurred in HTR8/SVneo cells in response to THC
Summary
Prenatal cannabis use is a significant problem and poses important health risks for the developing fetus. We further demonstrate THC-treatment elevated levels of cellular reactive oxygen species and markers of lipid damage This was accompanied by evidence of increased mitochondrial fission. We observed increased expression of cellular stress markers, HSP70 and HSP60, following exposure to THC These effects were coincident with reduced mitochondrial respiratory function and a decrease in mitochondrial membrane potential. Our results suggest that THC can induce mitochondrial dysfunction and reduce trophoblast invasion; outcomes that have been previously linked to poor placentation. Though the pathology and the mechanism(s) underpinning the adverse fetal outcomes associated with maternal cannabis use during pregnancy have yet to be fully elucidated, they are thought to stem from trophoblast abnormalities[22,23,24,25,26]. THC treatment in human lung cancer cells (H460) was shown to reduce mitochondrial complex I and complex II-III activities, reduce mitochondrial membrane potential, and induce oxidative stress and a poptosis[34]
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