Tryptophan inhibition

Studies with [ C] tryptophan in animals and isolated hepatocytes show that leucine does inhibit the synthesis of NAD from tryptophan, inhibiting metabolism at the level of kynurenine hydroxylase and kynureninase, causing the accumulation of intermediates. In isolated hepatocytes, the more... 

Gong F, Ito K, Nakamura Y, Yanofsky C. The mechanism of tryptophan induction of tryptophanase operon expression tryptophan inhibits release factor-mediated cleavage of TnaC-peptidyl-tRNA(Pro). Proc. Natl. Acad. Sci. U.S.A. 2001 98 8997-9001. 

The photodegradation of pyridoxine is noticeable in sugar and saline infusion solutions, but much less in amino acid infusion solutions. The presence of tyrosine and tryptophan inhibits photodecomposition, whereas flavine mononucleotide accelerates it (84). 

Cystine and the aromatic amino acids, e.g., tyrosine, phenylalanine, and tryptophan, absorb radiation at wavelengths greater than 254 nm (124). Tyrosine and tryptophan inhibit the photodecomposition of pyridoxine (84). 

Feeding of tryptophan to Cinchona cell suspension cultures has been reported to result in considerable production of alkaloids 572,577,578). However, other authors reported that tryptophan inhibits the growth of the cell cultures and is converted, probably nonenzymatically, to norhar-mane and related compounds, and no increase in alkaloid production could be observed 586,587). 

The synthesis of tryptophan in microorganisms is affected at several levels by end-product inhibition. Thus, end-product feedback inhibition partly regulates the synthesis of chorismic acid which is the final product of the common aromatic pathway and serves as a substrate for the first reaction in the tryptophan-synthesizing branch pathway (see Fig. 2). Regulation of the common aromatic pathway was recently reviewed by Doy [72]. The first enzyme of the common aromatic pathway, 3-deoxy-D-flrah/>jo-heptulosonate 7-phosphate synthetase (DAHPS), has been reported to exist as at least three isoenzymes, each specifically susceptible to inhibition by one of the aromatic amino acid end products (tyrosine, phenylalanine, and tryptophan), in E. coli (see reference [3]). It should be noted that many reports have indicated that in E. coli the DAHPS (trp), the isoenzyme whose synthesis is repressed specifically by tryptophan, was not sensitive to end-product inhibition by tryptophan. Recently, however, tryptophan inhibition of DAHPS (trp) activity has been demonstrated in E. coli [3,73,74]. The E. coli pattern, therefore, represents an example of enzyme multiplicity inhibition based on the inhibition specificity of isoenzymes. It is interesting to note the report by Wallace and Pittard [75] that even in the presence of an excess of all three aromatic amino acids enough chorismate is synthesized to provide for the synthesis of the aromatic vitamins whose individual pathways branch from this last common aromatic intermediate. In S. typhimurium, thus far, only two DAHPS isoenzymes, DAHPS (tyr) and DAHPS (phe) have been identified as sensitive to tyrosine and phenylalanine, respectively [76]. 

End-product inhibition of AS activity by tryptophan appears to be a rather common control mechanism among microorganisms. Nester and Jensen [71] described tryptophan inhibition of B. subtilis AS activity as the first step in sequential feedback control. Excess tryptophan would result in inhibition of the conversion of chorismate to anthrani-late. The consequent accumulation of chorismic acid would then serve as a feedback inhibitor of the DAMPS, the first enzyme in the pathway leading to chorismate synthesis. Bacillus alvei has an anthranilate synthetase which is extremely sensitive to inhibition by tryptophan [98]. In contrast to the mode of AS feedback inhibition in E. coli and S. typhimurium, the B. alvei AS is inhibited by tryptophan noncom-petitively with respect to chorismate and uncompetitively with respect to glutamine. It is the only Bacillus species, among 21 studied, which did not exhibit a sequential feedback control pattern [79]. 

Koopmans, S.J., M. Ruis, R. Dekker and M. Korte, 2009. Surplus dietary tryptophan inhibits stress hormone kinetics and induces insulin resistance in pigs. Physiol. Behav. 98, 402-410. 

Cihak, A., Lamar, C., Jr., and Pitot, H. C., 1973, L-Tryptophan inhibition of tyrosine aminotransferase degradation in rat liver in vivo. Arch. Biochem. Biophys. 156 188. 

The mode of action is by inhibiting 5-enolpymvyl-shikimate-3-phosphate synthase. Roundup shuts down the production of the aromatic amino acids phenylalanine, tyrosine, and tryptophane (30). Whereas all these amino acids are essential to the survival of the plant, tryptophane is especially important because it is the progenitor for indole-3-acetic acid, or auxin, which plays an important role in growth and development, and controls cell extension and organogenesis. 

Herbicides also inhibit 5- (9/-pymvylshikiniate synthase, a susceptible en2yme in the pathway to the aromatic amino acids, phenylalanine, tyrosine and tryptophan, and to the phenylpropanes. Acetolactate synthase, or acetohydroxy acid synthase, a key en2yme in the synthesis of the branched-chain amino acids isoleucine and valine, is also sensitive to some herbicides. Glyphosate (26), the sulfonylureas (136), and the imida2oles (137) all inhibit specific en2ymes in amino acid synthesis pathways. 

In the case of hyperphenylalaninaemia, which occurs ia phenylketonuria because of a congenital absence of phenylalanine hydroxylase, the observed phenylalanine inhibition of proteia synthesis may result from competition between T.-phenylalanine and L-methionine for methionyl-/RNA. Patients sufferiag from maple symp urine disease, an inborn lack of branched chain oxo acid decarboxylase, are mentally retarded unless the condition is treated early enough. It is possible that the high level of branched-chain amino acids inhibits uptake of L-tryptophan and L-tyrosiae iato the brain. Brain iajury of mice within ten days after thek bkth was reported as a result of hypodermic kijections of monosodium glutamate (MSG) (0.5—4 g/kg). However, the FDA concluded that MSG is a safe kigredient, because mice are bom with underdeveloped brains regardless of MSG kijections (106). 

Although essential amino acids are requited by both host and tumor, deprivation of select essential amino acids for 2—3 weeks is tolerated by the host yet exerts a pronounced antiproliferative effect on the tumor. Thus, treatment of mice with indole-3-alkane-a-hydroxylase [63363-76-8] from Pseudomonas, which transforms L-tryptophan [73-22-3] to 3-indolylglycaldehyde, lowers the concentration of L-tryptophan in plasma, brain, and lungs, and inhibits the growth of a variety of tumors (32—34). 

A Try mutant would not be subject to feedback inhibition by overproduction of tryptophan. Also, the mutation may allow more chorismate to proceed to prephenate via E3 (see Figure 8.4) and thus through to L-phenylalanine. 

Decarboxylation of histidine to histamine is catalyzed by a broad-specificity aromatic L-amino acid decarboxylase that also catalyzes the decarboxylation of dopa, 5-hy-droxytryptophan, phenylalanine, tyrosine, and tryptophan. a-Methyl amino acids, which inhibit decarboxylase activity, find appfication as antihypertensive agents. Histidine compounds present in the human body include ergothioneine, carnosine, and dietary anserine (Figure 31-2). Urinary levels of 3-methylhistidine are unusually low in patients with Wilson s disease. 

Not a great deal is known about factors that actually activate tryptophan hydroxylase. In particular, the relative contribution of tryptophan supply versus factors that specifically modify enzyme activity under normal dietary conditions is unknown. However, removal of end-product inhibition of tryptophan hydroxylase has been firmly ruled out. Also, it has been established that this enzyme is activated by electrical stimulation of brain slices, even in the absence of any change in tryptophan concentration, and so other mechanisms are clearly involved. 

Phenoxazines — The microbial phenoxazines like actinomycins are well-known antibiotics. Actinomycin D produced by Streptomyces anibioticus is an effective antineoplastic agent that inhibits nucleic acid synthesis. The main function of ommochromes is to act as screening pigments in the eyes of insects and other arthropods, as pattern pigments in the integument, and as excretion products of excess tryptophan. ... 

Typically, neurotoxic effects of drugs on monoamine neurons have been assessed from reductions in brain levels of monoamines and their metabolites, decreases in the maximal activity of synthetic enzymes activity, and decreases in the active uptake carrier. In the present study, the traditional markers described above have been used, including the measurement of the content of monoamines and their metabolites in brain at several different timepoints following drug administration. Since reports in the literature have documented that MDMA and MDA can inhibit the activity of tryptophan hydroxylase (TPH), the rate-limiting enzyme in serotonin synthesis (Stone et al. 1986 Stone et al. 1987). it is unclear whether MDMA-induced reductions in the content of serotonin and its metabolite 5-hydroxyin-doleacetic acid (5-HlAA) may be due to suppressed neurotransmission in otherwise structurally intact serotonin neurons or may represent the eonsequenee of the destruction of serotonin neurons and terminals. 

The starting point for much of the work described in this article is the idea that quinone methides (QMs) are the electrophilic species that are generated from ortho-hydro-xybenzyl halides during the relatively selective modification of tryptophan residues in proteins. Therefore, a series of suicide substrates (a subtype of mechanism-based inhibitors) that produce quinone or quinonimine methides (QIMs) have been designed to inhibit enzymes. The concept of mechanism-based inhibitors was very appealing and has been widely applied. The present review will be focused on the inhibition of mammalian serine proteases and bacterial serine (3-lactamases by suicide inhibitors. These very different classes of enzymes have however an analogous step in their catalytic mechanism, the formation of an acyl-enzyme intermediate. Several studies have examined the possible use of quinone or quinonimine methides as the latent... 

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