We tested whether cannabinoids (CBs) potentiate alcohol-induced birth defects in mice and zebrafish, and explored the underlying pathogenic mechanisms on Sonic Hedgehog (Shh) signaling. The CBs, Δ9-THC, cannabidiol, HU-210, and CP 55,940 caused alcohol-like effects on craniofacial and brain development, phenocopying Shh mutations. Combined exposure to even low doses of alcohol with THC, HU-210, or CP 55,940 caused a greater incidence of birth defects, particularly of the eyes, than did either treatment alone. Consistent with the hypothesis that these defects are caused by deficient Shh, we found that CBs reduced Shh signaling by inhibiting Smoothened (Smo), while Shh mRNA or a CB1 receptor antagonist attenuated CB-induced birth defects. Proximity ligation experiments identified novel CB1-Smo heteromers, suggesting allosteric CB1-Smo interactions. In addition to raising concerns about the safety of cannabinoid and alcohol exposure during early embryonic development, this study establishes a novel link between two distinct signaling pathways and has widespread implications for development, as well as diseases such as addiction and cancer.
Feeding is critical for survival and disruption in the mechanisms that govern food intake underlie disorders such as obesity and anorexia nervosa. It is important to understand both food intake and food motivation to reveal mechanisms underlying feeding disorders. Operant behavioral testing can be used to measure the motivational component to feeding, but most food intake monitoring systems do not measure operant behavior. Here, we present a new solution for monitoring both food intake and motivation in rodent home-cages: The Feeding Experimentation Device version 3 (FED3). FED3 measures food intake and operant behavior in rodent home-cages, enabling longitudinal studies of feeding behavior with minimal experimenter intervention. It has a programmable output for synchronizing behavior with optogenetic stimulation or neural recordings. Finally, FED3 design files are open-source and freely available, allowing researchers to modify FED3 to suit their needs.
Background
Genetic factors influence the physical and neurobehavioral manifestations of
prenatal alcohol exposure (PAE). Animal models allow the investigation of specific genes
that confer vulnerability to, or protection from, birth defects associated with fetal
alcohol spectrum disorders (FASDs). The objective of the present experiments was to
determine if genetic alterations in the Sonic Hedgehog (Shh) signaling pathways affect
the vulnerability to PAE-induced skeletal defects involving the fore- and/or
hind-limbs.
Method
Wild-type C57BL/6J female mice were bred with males in which one copy of the
Shh or Gli2 genes had been knocked out, to produce
litters with both wild-type (+/+) and heterozygous
(+/−) embryos. Alcohol doses (two injections of 2.9
g/kg, four hours apart) or vehicle were administered starting at GD-9.25, 9.5 or 9.75, a
critical exposure time for inducing limb defects. Limb defects were examined at GD 17
using a dysmorphology scale based on abnormalities ranging from increased interdigital
spacing to the deletion of multiple fingers and the ulna.
Results
Alcohol treatment caused a high incidence of forelimb defects, particularly on
the right side, that was higher in Shh+/−
and Gli2+/− fetuses compared to WT fetuses.
Dysmorphology scores were also significantly higher in the
Shh+/− and
Gli2+/− mice.
Conclusions
These results extend previous findings demonstrating enhanced sensitivity to
PAE-induced craniofacial dysmorphology and support the hypothesis that genetic
alterations in the Shh signaling pathway influences the vulnerability to alcohol-induced
birth defects. Moreover, these results emphasize the importance of understanding the
interactions between genes and prenatal exposure to alcohol or other teratogens.
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