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Phenylethanolamine N-methyltransferase (PNMT) is an enzyme found in the adrenal medulla that converts norepinephrine (noradrenaline) to epinephrine (adrenaline).

Structure
PNMT is a protein whose encoding gene is found on chromosome 17 in humans. It consists of 4 exons and is a 30kDa protein. It shares many properties found among the other methyltransferases. It is closest in sequence to Glycine-N-methyl transferase (GNMT). It also shares many structural properties like the shape of the folding lip with Catechol-O-methyl transferase (COMT), though it shares less sequence identity. Several features of the structure like this folding lip suggest that PNMT is a recent adaptation to the catecholamine synthesizing enzyme family, evolving later than COMT, and before other methyltransferases like GNMT.

The active site binding region for the cofactor S-adenosyl-L-methionine (SAM) contains a rich number of pi bonds from phenylalanine and tyrosine residues in the active site help to keep it in its binding pocket through pi stacking. Among all known PNMT variants in nature there are 7 crucial aromatic residues conserved in the active site.

The residue Glutamine 185 is necessary in binding the the catecholamine substrate. The replacement of this residue another reduces the catalytic efficiency of PNMT by ten fold up to three hundred fold.

In the absence of an inhibitor or ligand, a phosphate group is bound to the active site to stabilize this region.

Human PNMT forms dimers in solution. When PNMT crystals are grown in non-reducing solutions, two disulfide bonds form between cysteines 48 and 139 on opposite chains. This dimerization has no effect on the catalytic activity of the enzyme.



Mechanism
PNMT catalyzes the transfer of a methyl group from SAM to norepinephrine, converting it into epinephrine. It works by bringing the cofactor SAM and substrate together in close proximity, so that the reactive methyl group can be attacked by by the primary amine of the norepinephrine molecule or another catecholamine substrate. The methyl group of SAM is very reactive, so the structure and and placement of both norepinephrine and SAM is crucial for correct methylation pattern on the product.



S-adenosyl-L-methionine (SAM) is a required cofactor. .

This enzyme also converts phenethylamine to N-methylphenethylamine, an isomer of amphetamine. , and can convert other trace catecholamines like p-octopamine into synephrine, and p-Tyramine into N-Methyltyramine.

While PNMT methylates norepinephrine to activate the molecule, it is similarly deactivated by Catechol-O-methyl transferase (COMT), another methyl transferase, which adds a methyl group in a different location to make metanephrine. Methyltransferases are very common in the catecholamine synthesis and deactivation pathways.

Regulation
Elevated PNMT expression is one of the ways that the stress response positively feeds back on itself. An increase in stress hormones or nerve impulses due to stress cause PNMT to convert more norepinephrine into epinephrine. This increases the potency of the catecholamine response system, increasing the sympathetic output and making the stress response more profound.

PNMT is known to be regulated by glucocorticoids made in the adrenal gland. One way that it can regulate PNMT expression is by corticosterone's positive influence on the maintenance of PNMT mRNA. Glucocorticoids have also been shown to increase the biological half life of the enzyme in vitro. In animals who have had their pituitary gland removed, the addition of glucocorticoids significantly lengthens the half life of PNMT enzymes.

Elevated PNMT levels can also be triggered by Splanchnic nerve impulses. Nerve impulses increase the synthesis of PNMT mRNA by affecting certain promoter sequences.

Stress immobilization for a few hours has also been shown to increase PNMT activity in rats. This treatment takes about one week to manifest a difference in PNMT levels.

SAM not only acts as a cofactor for PNMT, but also helps to stabilize the enzyme and increase the half life by making it more resistant to being cut by trypsin protease.

Localization
Epinephrine synthesis and therefore PNMT location has been largely found to be contained in the adrenal medulla or adrenal gland of most species. PNMT has been localized in most adult mammals to the cytoplasm of these medullary cells.

Newer studies are also showing PNMT mRNA and protein to be expressed in other regions of the body as well. Certain neural tracts, the retina, and in both atria and ventricles in the hearts are now being elucidated as sites of PNMT expression.

Disease
PNMT's normal function and defects of the protein are associated with multiple diseases and disorders.

Vitiligo
Decreased levels of PNMT activity measured as epinephrine is seen in the skin of patients with Vitiligo in the keratinocytes, which normally have higher PNMT activity.

Ethanol Intoxication
Two potent PNMT inhibitors (LY134046 and LY78335) were long lasting antagonists of both ethanol intoxication and sedation. This suggests a central role that PNMT and epinephrine play in the synthesis of ethanol and pentobarbital induced sedation and intoxication.

Alzheimers Disease
Alzheimer's Disease has also been associated with reduced human PNMT activity in the regions of the brain most associated with degeneration in Alzheimer's disease. There have also been significant associations with PNMT polymorphisms and early onset Alzheimer's disease.

Inhibition
Classic PNMT inhibitors come from classes of molecules such as Benzimidazoles, quinolones, and purines. Inhibition can also be produced by the addition of S deoxyadenosyl L homocysteine, a replacement for the cofactor SAM, which resembles it, but is missing the methyl group, so no methyl transfer is possible.