Melatonin mediates the BMP4/MAPK signaling pathway to alleviate zearalenone-induced abnormal embryonic development in mice.
Study Goal
The researchers aimed to determine whether melatonin could mitigate the adverse effects of ZEA exposure on mouse embryo development and improve reproductive outcomes.
Results Summary
Melatonin significantly improved blastocyst rates from 40% to 80%, reduced ROS levels, prevented mitochondrial dysfunction, decreased apoptosis, and increased offspring birth rates from 7.2% to 23.62% by inhibiting BMP4 signaling and regulating the MAPK pathway.
Population
Mouse zygotes and embryos exposed to ZEA in vitro.
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
Zearalenone (ZEA) exposure | decrease | embryo development | mouse zygotes in vitro | null | significantly impairs | #1 |
Zearalenone (ZEA) exposure | increase | embryo arrest | mouse zygotes in vitro | null | leading to | #2 |
melatonin treatment | increase | blastocyst rates | ZEA-exposed mouse embryos | from approximately 40 % to nearly 80 % | significantly improved | #3 |
melatonin | decrease | harmful effects of ZEA exposure | ZEA-exposed mouse embryos | null | effectively mitigates | #4 |
melatonin | decrease | reactive oxygen species (ROS) levels | ZEA-exposed mouse embryos | null | reducing | #5 |
melatonin | decrease | mitochondrial dysfunction | ZEA-exposed mouse embryos | null | preventing | #6 |
melatonin | decrease | cell apoptosis | ZEA-exposed mouse embryos | null | decreasing | #7 |
melatonin treatment | increase | birth rate of offspring | following embryo transplantation | from 7.2 % to 23.62 % | increased markedly | #8 |
Zearalenone (ZEA) exposure | increase | bone morphogenetic protein 4 (BMP4) signaling | mouse embryos | null | abnormal elevation | #9 |
Zearalenone (ZEA) exposure | decrease | downstream mitogen-activated protein kinase (MAPK) signaling pathway | mouse embryos | null | inhibition | #10 |
Zearalenone (ZEA) exposure | increase | developmental blockade | ZEA-exposed mouse embryos | null | contributes to | #11 |
melatonin | decrease | ZEA-induced defects in mouse embryo development | mouse embryos | null | rescued | #12 |
melatonin | decrease | BMP4 signaling | mouse embryos | null | inhibiting | #13 |
melatonin | null | MAPK pathway | mouse embryos | null | regulating | #14 |
Bmp4 inhibitor Noggin | decrease | ZEA-induced impairment of embryo development | mouse embryos | null | effectively ameliorate | #15 |
receptor inhibitor DMH-1 | decrease | ZEA-induced impairment of embryo development | mouse embryos | null | effectively ameliorate | #16 |
Zearalenone (ZEA) is a common mycotoxin found in crops that poses a threat to human health, particularly the female reproductive system. Here, we show that exposing mouse zygotes to ZEA in vitro significantly impairs embryo development, leading to embryo arrest. Remarkably, treatment of ZEA-exposed mouse embryos with melatonin significantly improved the blastocyst rates from approximately 40 % to nearly 80 %. Furthermore, melatonin effectively mitigates the harmful effects of ZEA exposure by reducing reactive oxygen species (ROS) levels, preventing mitochondrial dysfunction, and decreasing cell apoptosis. Following embryo transplantation, the birth rate of offspring increased markedly from 7.2 % to 23.62 %. Further research revealed that the abnormal elevation of bone morphogenetic protein 4 (BMP4) signaling induced by ZEA exposure, coupled with the inhibition of the downstream mitogen-activated protein kinase (MAPK) signaling pathway, contributes to developmental blockade in ZEA-exposed mouse embryos. Melatonin rescued ZEA-induced defects in mouse embryo development by inhibiting BMP4 signaling and regulating the MAPK pathway. Moreover, the Bmp4 inhibitor Noggin or its receptor inhibitor DMH-1 could also effectively ameliorate the ZEA-induced impairment of embryo development. Taken together, these findings underscore the potential of melatonin as a therapeutic intervention for addressing the adverse effects of ZEA exposure on mouse embryos.