Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.1.1.17 (ornithine decarboxylase)
 6,351 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

All attempts to identify ornithine decarboxylase in the human pathogen Trypanosoma cruzi have failed. The parasites have instead been assumed to depend on putrescine uptake and S-adenosylmethionine decarboxylase (AdoMetDC) for their synthesis of the polyamines spermidine and spermine. We have now identified the gene encoding AdoMetDC in T. cruzi by PCR cloning, with degenerate primers corresponding to conserved amino acid sequences in AdoMetDC proteins of other trypanosomatids. The amplified DNA fragment was used as a probe to isolate the complete AdoMetDC gene from a T. cruzi genomic library. The AdoMetDC gene was located on chromosomes with a size of approx. 1.4 Mbp, and contained a coding region of 1110 bp, specifying a sequence of 370 amino acid residues. The protein showed a sequence identity of only 25% with human AdoMetDC, the major differences being additional amino acids present in the terminal regions of the T. cruzi enzyme. As expected, a higher sequence identity (68-72%) was found in comparison with trypanosomatid AdoMetDCs. When the coding region was expressed in Escherichia coli, the recombinant protein underwent autocatalytic cleavage, generating a 33-34 kDa alpha subunit and a 9 kDa beta subunit. The encoded protein catalysed the decarboxylation of AdoMet (Km 0.21 mM) and was stimulated by putrescine but inhibited by the polyamines, weakly by spermidine and strongly by spermine. Methylglyoxal-bis(guanylhydrazone) (MGBG), a potent inhibitor of human AdoMetDC, was a poor inhibitor of the T. cruzi enzyme. This differential sensitivity to MGBG suggests that the two enzymes are sufficiently different to warrant the search for compounds that might interfere with the progression of Chagas' disease by selectively inhibiting T. cruzi AdoMetDC.
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PMID:Trypanosoma cruzi has not lost its S-adenosylmethionine decarboxylase: characterization of the gene and the encoded enzyme. 967 9

Previous studies have demonstrated that the prolactin stimulation of most lactational processes (casein, lactose, and triglyceride synthesis) requires an earlier stimulating effect of prolactin on the synthesis of the polyamines. Spermidine appears to be the specific polyamine required for prolactin to enhance milk product synthesis. Inorganic iodide is present in milk at more than an order of magnitude higher concentration than that of the maternal plasma. Since prolactin stimulates iodide accumulation in milk, the goal of these studies was to determine the role of the polyamines in this hormone response. Two drugs were employed in these studies: DFMO (difluoromethylornithine), which inhibits ornithine decarboxylase, and MGBG [methylglyoxal bis(guanyl-hydrazone)], which inhibits S-adenosyl methionine decarboxylase. In mammary gland explants from midpregnant (10-14 days of pregnancy) mice, MGBG at 100 microM abolished the prolactin stimulation of iodide uptake and incorporation into milk proteins, whereas DFMO caused a concentration-dependent inhibition of the PRL response. Selected sensitivity of the MGBG and DFMO inhibitions was validated by a reversal of the drug inhibitions with the addition of 1 mM spermidine to the culture medium. These data suggest that the polyamine signaling pathway is involved in the prolactin stimulation of iodide uptake into milk.
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PMID:Prolactin stimulation of iodide uptake and incorporation into protein is polyamine-dependent in mouse mammary gland explants. 1078 45

The human salivary gland (HSG) epithelial cell line can differentiate when cultured on extracellular matrix preparations. We previously identified >30 genes upregulated by adhesion of HSG cells to extracellular matrix. In the current studies, we examined the role of one of these genes, the polyamine pathway biosynthetic enzyme S-adenosylmethionine decarboxylase (SAM-DC) and the related enzyme, ornithine decarboxylase (ODC), on HSG cell differentiation during culture on extracellular matrix. HSG cells cultured on fibronectin-, collagen I gel-, and Matrigel-coated substrates for 12-24 h upregulated SAM-DC and ODC mRNA expression and enzyme activity compared to cells cultured on non-precoated substrates. After 3-5 days, HSG cells grown on Matrigel- or collagen I gel-coated substrates acquired a differentiated phenotype: the cells showed changes in culture morphology and increased expression of salivary gland differentiation markers (vimentin, SN-cystatin, and alpha-amylase). Further, culturing the cells on substrates precoated with an anti-beta1-integrin-antibody promoted differentiation-like changes. HSG cells cultured on collagen I- or Matrigel-coated substrates rapidly entered the cell cycle but showed decreased cell proliferation at longer times. In contrast, cell proliferation was enhanced on fibronectin-coated substrates compared to cells on non-precoated substrates. Treatment with the polyamine synthesis inhibitors, difluoromethylornithine (DFMO), and methylglyoxal bis-(guanylhydrazone) (MGBG), inhibited cell proliferation and delayed (3)H-thymidine incorporation in HSG cells cultured on all of the substrates. Further, inclusion of DFMO and MGBG inhibited or delayed acquisition of the differentiated phenotype in HSG cells cultured on Matrigel- or collagen I gel-coated substrates. This suggests that the adhesion-dependent expression of SAM-DC and ODC contributes to extracellular matrix-dependent HSG cell differentiation.
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PMID:HSG cells differentiated by culture on extracellular matrix involves induction of S-adenosylmethione decarboxylase and ornithine decarboxylase. 1552 Oct 72

Polyamine metabolism and its relation to the induction of alpha-amylase formation in the aleurone layers of barley seeds (Hordeum vulgare cv Himalaya) in response to gibberellic acid (GA(3)) has been investigated. A high-performance liquid chromatographic system has been employed for qualitative and quantitative analyses of putrescine (Put), cadaverine (Cad), spermidine (Spd), spermine (Spm), and agmatine (Agm).Active polyamine metabolism occurs in the aleurone cells of deembryonate barley half seeds during imbibition. The aleurone layers isolated from fully imbibed half seeds contain about 880 nanomoles of Put, 920 nanomoles of Spd, and 610 nanomoles of Spm as free form per gram tissue dry weight while the levels of Cad and Agm are relatively low. The polyamine levels do not change significantly in the aleurone layers in response to added GA(3) (1.5 micromolar) during the 8-hour lag period of the growth substance-induced formation of alpha-amylase. Also, the polyamine levels are not altered by the presence of abscisic acid (3 micromolar) which inhibits the enzyme induction by GA(3). Kinetic studies show that both applied [U-(14)C]ornithine and [U-(14)C]arginine are primarily incorporated into Put during 2 hours of incubation, but the incorporation is not significantly affected by added GA(3). Additionally, added GA(3) does not affect the uptake and turnover of [1,4-(14)C]Put, nor does it affect the conversion of Put --> Spd or Spd --> Spm. Treatment of the aleurone layers with GA(3) for 2 hours results in no significant changes in the total activities or the specific activities of ornithine decarboxylase and arginine decarboxylase.Experiments with polyamine synthesis inhibitors demonstrate that the level of Spd in the aleurone layers could be substantially reduced by the presence of methylglyoxal-bis(guanylhydrazone) (MGBG) during imbibition. MGBG treatment does not affect in vivo incorporation of [8-(14)C] adenosine into ATP. The lower the level of Spd the less alpha-amylase formation is induced by added GA(3). The reduction of GA(3)-induced alpha-amylase formation by MGBG treatment can be either completely or partially overcome by added Spd, depending upon the concentration of MGBG used in the imbibition medium. The results indicate that the early action of GA(3), with respect to induction of alpha-amylase formation in barley aleurone layers, appears to be not on polyamine metabolism. However, polyamines, particularly Spd, may be involved in regulation of the growth substance-dependent enzyme induction.
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PMID:Polyamine metabolism and its relation to response of the aleurone layers of barley seeds to gibberellic Acid. 1666 45

The role of polyamines (PAs) in plant reproduction, especially pollen development and germination has been demonstrated in several higher plants. The aim of the present research was to investigate PA involvement in pollen development and germination in dioecious kiwifruit (Actinidia deliciosa). Differences in PA content, level and gene expression for PA biosynthetic enzymes, and the effect of PA biosynthetic inhibitors were found during pollen development (or abortion in female flowers). Whereas PAs, especially spermidine (Spd), remained high throughout the development of functional pollen, the levels collapsed by the last stage of development of sterile pollen. Mature and functional pollen from male-fertile anthers showed S-adenosyl methionine decarboxylase activity (SAMDC; involved in Spd biosynthesis) throughout microgametogenesis, with high levels of soluble SAMDC found starting from the late uninucleate microspore stage. Soluble SAMDC was absent in male-sterile anthers. Arginine decarboxylase [ADC; for putrescine (Put) biosynthesis] showed little difference in functional vs sterile pollen; ornithine decarboxylase [ODC; also for putrescine (Put) biosynthesis] was present only in sterile pollen. Ultrastructural studies of aborted pollen grains in male-sterile flowers showed that cytoplasmic residues near the intine contain vesicles, extruding towards the pollen wall. Very high SAMDC activity was found in the wall residues of the aborted pollen. The combined application in planta of competitive inhibitors of S-adenosylmethionine decarboxylase (MGBG) and of spermidine synthase (CHA), or of D-arginine (inhibitor of Put synthesis), to male-fertile plants led to abnormal pollen grains with reduced viability. The importance of PAs during male-fertile pollen germination was also found. In fact, PA biosynthetic enzymes (ADC and, mainly, SAMDC) were active early during pollen hydration and germination in vitro. Two different SAMDC gene transcripts were expressed in germinating pollen together with a lower level of ADC transcript. Gene expression preceded PA enzyme activity. The application of PA inhibitors in planta drastically reduced pollen germination. Thus, low free Spd can lead either to degeneration or loss of functionality of kiwifruit pollen grains.
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PMID:Polyamine biosynthesis and control of the development of functional pollen in kiwifruit. 2035 2


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