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Could somebody explain in simplest terms the difference between inverse agonist and neutral antagonist?

Which one is more well natural and less likely to cause pathways to rebound?

Does neutral mean less effect such that stepping from an inverse agonist to neutral is the best idea to avoid withdrawal?

Edit: I am trying to determine how quickly the pathways rebound when stopped during withdrawal. I would assume this might vary between inverse agonist and neutral antagonist. I am not asking about actual withdrawal symptoms.

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Many receptors have a natural constitutive, or "baseline", amount of response that they generate, they're not just an on-off switch. At baseline, many receptors will generate a partial response, which means that certain things binding to them can either increase or decrease their response.

A neutral antagonist is one that causes no change in the signaling response of the thing that it's binding to. It simply stays the same. Note that this can still be important, because a neutral antagonist can block the binding of other agonists, ones that would have generated a change in response, even if the antagonist itself doesn't cause a response.

An inverse agonist is something that decreases the response of the receptor from its baseline all by itself. Often, this is caused by stabilizing the receptor in it's "off" state. If the receptor has some degree of constitutive activity, an inverse agonist will decrease its activity.

See this graph from this wikipedia page for a good explanation:

Comparison graph of different types of agonists

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    $\begingroup$ @William Please stop using the term "brain shock" - if you mean "withdrawal" then use the term others use: withdrawal. Knowing whether a something is an inverse agonist or an antagonist is not sufficient information to predict the extent of withdrawal symptoms. $\endgroup$
    – Bryan Krause
    May 30, 2018 at 17:51
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    $\begingroup$ @William That term doesn't have any meaning outside of pseudoscience unless you give it a particular definition. $\endgroup$
    – Bryan Krause
    May 30, 2018 at 17:55
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    $\begingroup$ @William I thought I already made clear in my comment: Knowing whether a something is an inverse agonist or an antagonist is not sufficient information to predict the extent of withdrawal symptoms. $\endgroup$
    – Bryan Krause
    May 30, 2018 at 18:02
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    $\begingroup$ @William Binding affinity is probably closer to what you are looking for. $\endgroup$
    – Bryan Krause
    May 30, 2018 at 18:09
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    $\begingroup$ @William the horizontal axis is drug concentration. This is a particular type of receptor, that does something whether or not a drug or endogenous (thing the body produces) compound is bound to the receptor. Like the answer says, antagonists definitely do something. They compete with other compounds at the binding site. The change in activity of the receptor is only seen when you have two compounds present. This is not shown in the figure. $\endgroup$
    – De Novo
    Jul 25, 2018 at 16:53

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