Expression of Melatonin and Dopamine D
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
melatonin | decrease | eye levels | eye | - | inverse relationship | #1 |
dopamine | decrease | eye levels | eye | - | inverse relationship | #2 |
dopamine and melatonin receptors | neutral | function impact on eye physiology | heterologous systems | - | formed heteromers | #3 |
heteroreceptor complexes | neutral | proximity ligation assays | cells producing the aqueous humor and human eye samples | - | expression was assessed | #4 |
heteromers | neutral | melatonin and dopamine actions in structures regulating intraocular pressure | - | - | likely mediate | #5 |
D | increase | - | - | - | significant expression | #6 |
BACKGROUND: Experiments in the late nineties showed an inverse relationship in the eye levels of melatonin and dopamine, thereby constituting an example of eye parameters that are prone to circadian variations. The underlying mechanisms are not known but these relevant molecules act via specific cell surface dopamine and melatonin receptors. This study investigated whether these receptors formed heteromers whose function impact on eye physiology. We performed biophysical assays to identify interactions in heterologous systems. Particular heteromer functionality was detected using Gi coupling, MAPK activation, and label-free assays. The expression of the heteroreceptor complexes was assessed using proximity ligation assays in cells producing the aqueous humor and human eye samples. Dopamine D CONCLUSIONS: Heteromers likely mediate melatonin and dopamine actions in structures regulating intraocular pressure. Significant expression of D