Salvinorin

Salvinorin A is found in Salvia Divinorum.  Salvinorin A is a potent and selective κ-Opioid (kappa-Opioid) receptor agonist.   However, it is an even more potent D₂ receptor partial agonist, and it is likely this action plays a significant role in its effects as well.

The kappa activity

and

The dopamine activity

To understand the following paper, you need to know that Conditioned place preference (also known as environmental place conditioning) is a technique commonly used in animal testing to evaluate preferences for environmental stimuli that have been associated with a positive or negative reward.

The technique is often used to determine the addiction potential of drugs.  If the little animal likes what it has been given in one environment ‘preference’, it will return,  once it is back in its normal state to see if it can find the same thing again – much like we do if we find a nice restaurant or a pub.  If the experience was none too pleasant ‘aversion’, the animal will avoid the place, like we do with dentists.

and

The nucleus accumbens is thought to play an important role in reward, pleasure, laughter, addiction, aggression, fear, and the placebo effect.

Overall effect

Salvinorin A is a D2 agonist and a potent one.  But is it one directly or one indirectly?  I think it is one indirectly.  The kappa activity that we have seen in the section on neurotransmitters is partly achieved via the dopamine receptor and thus the D2 activity is a by-product of the overall kappa activity.  If we summarise the effects of the D2 agonistic actions, we see that they are

 The kappa effects

These receptors are found in the brain, the spinal cord and ‘pain neurons’ in the skin.   The functions are fairly complex, acting both directly and indirectly:

• Dysphoria - The anti-rewarding properties of κ-opioid agonists are well known and seem to work a number of ways.  These receptors  produce dysphoria (the opposite of euphoria) where the dysphoria differs between sexes.  Effects can include nervousness, depression, restlessness and crying.  In addition, the immediate effect of κ-opioid agonism leads to reduction of dopamine release, although the administration of a κ-opioid agonist as we have seen  produces an increase in dopamine D2 activity and receptors in the brain. 

• Pain relief - Stimulation of relief from abdominal pain and bloating this may be accompanied at high dose by cramps, dyspepsia, and a bitter taste, this is why the plant salvia is being considered as an aid to help in stomach problems

• Nausea – and vomiting at higher doses, this may be a knock on effect from the dopamine effects

• Diuretic - It also causes an increase in urine production this was attributed to the release of vasopressin, but it could also be attributable to the dopamine effects. 

• “Interoceptive effects” - depersonalising and derealising, psychotomimetic  - psychotomimetic actions mimic the symptoms of psychosis, including ‘delusions, visions and/or hallucinations’.  Because the principal effects are that of dysphoria, these hallucinations may not be pleasant and can include psychological symptoms such as feelings of unease and  paranoia

• Cardiovascular – hypertension,  increased cardiac load,  or hypotension, bradycardia, tachycardia

• Respiratory depression -  at higher doses pulmonary edema occurs when the pressure in blood vessels in the lung is raised because of obstruction to remove blood via the pulmonary veins. Pulmonary edema produces shortness of breath. Pleural effusions may occur when fluid also accumulates in the pleural cavity

• Visual distortions – possibly caused by the increase in blood pressure

One rather odd knock on effect is that kappa opiate receptor agonists increase the pituitary hormone prolactin [Source PMID: 3079599].  Prolactin has all sorts of effects:

• Sexual depressant - It decreases the normal levels of sex hormones — estrogen in women and testosterone in men. It is this inhibition of sex steroids that is responsible for loss of the menstrual cycle in lactating women as well as lactation-associated osteoporosis.

• Hair thinning - It seems to delay hair regrowth leading to balding

• Brain neuron increase -  It “promotes neurogenesis”, neurogenesis is responsible for populating the growing brain with neurons.  This is why drugs in this class have sometimes been used to counteract the effects of drugs that cause permanent memory impairment.

• It also stimulates growth hormones, whilst inhibiting the thyroid-stimulating hormones (TSHs).