Acetyl coenzyme inhibition

Histone Acetylation. Figure 1 Histone acetylation is a posttranslational modification of lysine residues of histones. This modification is catalyzed by histone actyl transferases (HATs), which transfer an acetyl group (yellow) from acetyl-Coenzyme A onto the E-amino group of the lysine residue. Histone deacetylation is catalyzed by histone deacetylases (HDACs), which hydrolyze the lysine bound acetyl group. HDAC inhibitors like Trichostatin A (TSA) are known to inhibit the deacetylation reaction in vivo and in vitro. 

Figure 13.3. An overview of the chemical events at a cholinergic synapse and agents commonly used to alter cholinergic transmission acetyl CoA, acetyl coenzyme A Ch, choline. Nicotine and scopolamine bind to nicotinic and muscarinic receptors, respectively (nicotine is an agonist while scopolamine is an antagonist). Most anti-Alzheimer drugs inhibit the action of the enzyme cholinesterase.

ATP and magnesium were required for the activation of acetate. Acetylations were inhibited by mercuric chloride suggesting an SH group was involved in the reaction either on the enzyme or, like lipoic acid, as a cofactor. Experiments from Lipmann s laboratory then demonstrated that a relatively heat-stable coenzyme was needed—a coenzyme for acetylation—coenzyme A (1945). The thiol-dependence appeared to be associated with the coenzyme. There was also a strong correlation between active coenzyme preparations and the presence in them of pantothenic acid—a widely distributed molecule which was a growth factor for some microorganisms and which, by 1942-1943, had been shown to be required for the oxidation of pyruvate. 

Gamble, J. Lopaschuk, G.D. Insulin inhibition of 5 -adenosine monophosphate-activated protein kinase in the heart results in activation of acetyl coenzyme A carboxylase and inhibition of fatty acid oxidation. Metabolism, 46, 1270-1274 (1997)... 

When cucurbit cells are fed O-acetylserine or its metabolic precursors the rate of hydrogen sulfide emission in response to sulfate declines, and the incorporation of labeled sulfur from 35S-sulfate into cysteine increases (18). Inhibition of the synthesis of the O-acetylserine precursor acetyl coenzyme A by 3-fluoropyruvate (22) enhances hydrogen sulfide emission, but inhibits cysteine synthesis (1 ). These observations indicate that the availability of O-acetylserine is the rate limiting factor in cysteine synthesis. Hydrogen sulfide may be emitted to the extent the amount of sulfate reduced exceeds the synthesis of O-acetylserine. Therefore, direct release of sulfide from carrier-bound sulfide appears to be responsible for the emission of hydrogen sulfide in response to sulfate (Figure 1, pathway 1). 

Aryloxyphenoxypropanoates and cyclohexanediones are two classes of herbicides that control many monocotyledoneous species. Although these herbicides are structurally very different (Fig. 1), there has been some conjecture that they have a similar mode of action because of their similarity in selectivity and symptomology. This paper describes the experiments that led to the discovery that aryloxyphenoxypropanoate and cyclohexanedione herbicides inhibit acetyl coenzyme A carboxylase (acetyl-coenzyme A bicarbonate ligase [ATP], EC 6.4.1.2) activity in susceptible species (1). In addition, evidence is presented indicating that the inhibition of acetyl coenzyme A carboxylase (ACCase) is well correlated to observed herbicidal activity. Similar, independent findings have recently been reported by two other research groups (2.3). 

SECOR ET AL. Herbicidal Inhibition of Acetyl Coenzyme A Carboxylase 267... 

Shirra, M.K., Patton-Vogt, J., Ulrich, A., Liuta-Tehlivets, O., Kohlwein, S.D., Henry, S.A., and Arndt, K.M., 2001, Inhibition of acetyl coenzyme A carboxylase activity restores expression of the INOl gene in a snfl mutant strain of Saccharomyces cerevisiae. Mol. Cell. Biol. 21 5710-5722. 

Isoniazid interferes with mycolic acid synthesis by inhibiting an enoyl reductase (InhA) which forms part of the fatty acid synthase system in mycobacteria. Mycolic acids are produced by a diversion of the normal fatty acid synthetic pathway in which short-chain (16 carbon) and long-chain (24 carbon) fatty acids are produced by addition of 7 or 11 malonate extension units from malonyl coenzyme A to acetyl coenzyme A. InhA inserts a double bond into the extending fatty acid chain at the 24 carbon stage. The long-chain fatty acids are further extended and condensed to produce the 60-90 carbon (3-hydroxymycolic acids which are important components of the mycobacterial cell wall. Isoniazid is converted inside the mycobacteria to a free radical species by a catalase peroxidase enzyme, KatG. The active free radicals then attack and inhibit the enoyl reductase, InhA, by covalent attachment to the active site. 

M.A. Lunzer, J.a. Manning, and R. K. OcKNER, Inhibition of rat liver acetyl coenzyme A carboxylase by long chain acyl coenzyme A and fatty acid. Modulation by fatty acid-binding protein, J. Biol. Chem., 1977, 252, 5483-5487. 

Nitrofurantoin is a synthetic nitrofuran that is bacteriostatic in low concentrations (5 to 10 mcg/mL) and bactericidal in higher concentrations. Nitrofurantoin may inhibit acetyl-coenzyme A, interfering with bacterial carbohydrate metabolism. It may also disrupt bacterial cell wall formation. 

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