Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.2 (focal adhesion kinase)
 44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cause of detrusor instability and mixed incontinence remains elusive. Although DI is most prevalent at the extremes of age, GSI becomes more common with aging and child bearing, and therefore mixed incontinence is common, especially after menopause. Cystometry is used to diagnosis detrusor instability, but urethral closure pressure profilometry is required for assessment of mixed incontinence. DI is managed initially by behavioral therapy, and if this is not satisfactory then FES should be used depending upon availability. Drug therapy should start with oxybutynin at 2.5 to 5 mg twice-daily and increased as necessary to control symptoms. If the effects of therapy are minimal or side effects are too great, other medications or medication combinations should be tried. When the patient does not respond to this level of therapy, transvesical phenol injections should be considered, or, alternatively, a sacral selective neurolysis or neurectomy should be considered. Finally, invasive procedures will have to be considered starting with bladder transection, especially for the patient showing response to medication but intolerant of side effects. Mixed incontinence should be approached with conservative measures for each component. FES or imipramine therapy may help both conditions. If conservative therapy is not beneficial, surgical correction for GSI should be undertaken, with the knowledge that 35 to 50 per cent of patients will also have cure of DI, while the remainder can be treated medically for the DI.
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PMID:Etiology and management of detrusor instability and mixed incontinence. 269 19

Thermolabile (TL) phenol sulfotransferase (PST) catalyzes the sulfate conjugation of phenolic monoamines such as dopamine. The level of activity of TL PST in at least one human tissue, the blood platelet, is controlled by a genetic polymorphism. We previously cloned and expressed a cDNA for human liver TL PST and localized its gene, STM, to human chromosome 16p11.2, a region of the chromosome to which the Batten disease gene is also localized. A cDNA for human brain TL PST with an identical open reading frame (ORF) has also been cloned. We have now isolated the human TL PST gene, STM, and have characterized its structural organization as an additional step toward understanding molecular mechanisms involved in the regulation of levels of TL PST activity in human tissue. STM consists of ten exons and nine introns, with a total length of approximately 8.4 kb. Exons range from 88-499 bp in length, while introns vary from 89-1855 bp. Many of the exon-intron splice junctions in STM are located at positions identical to those of splice junctions in the human dehydroepiandrosterone (DHEA) ST gene, STD, and the rat phenol or aryl ST gene. The first two STM exons are represented in the 5'-UTR of a longer TL PST cDNA expressed in both brain and liver, while exon III is represented in a shorter cDNA 5'-UTR expressed in both tissues. These observations suggest alternative transcription initiation and/or alternative splicing as explanations for the existence of TL PST mRNA species with two different 5'-UTRs. 5'-Flanking region(s) of STM contained neither canonical TATA nor CCAAT elements, but they did contain pyrimidine-rich stretches. Northern blot analyses showed that an mRNA species approximately 1.4 kb in length was expressed in human liver, kidney, lung, small intestine, spleen and leukocyte. Molecular cloning and structural characterization of STM will make it possible to study molecular genetic mechanisms involved in the regulation of TL PST activity in human tissue.
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PMID:Human thermolabile phenol sulfotransferase gene (STM): molecular cloning and structural characterization. 769 37

Dehydroepiandrosterone sulfotransferase (DHEA ST) catalyzes the sulfate conjugation of DHEA and other steroids. From 20 to 25% of subjects are included in a subgroup with high levels of hepatic DHEA ST activity, raising the possibility that this enzyme activity might be controlled by a genetic polymorphism. To understand the molecular mechanisms involved in regulating levels of DHEA ST activity in human tissue, we cloned the human DHEA ST gene, STD. STD spans at least 17 kb and is composed of 6 exons and 5 introns. The locations of the splice junctions for several of the introns are identical to those present in the rat phenol or aryl ST gene, the only other cytosolic ST gene for which the entire exon/intron structure has been reported, as well as those present in two partially characterized genes for the rat senescence marker protein, genes that are also thought to encode ST enzymes. The 5'-flanking region of the human STD gene does not contain canonical TATA or CCAAT elements, but this region is capable of promoting transcription of a reporter gene in Hep G2 cells. Molecular cloning and structural characterization of the human STD gene will make it possible to study genetic mechanisms involved in the regulation of DHEA ST activity in human tissue.
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PMID:Human dehydroepiandrosterone sulfotransferase gene: molecular cloning and structural characterization. 771 Jun 89

Sulfation is an important pathway in the metabolism of estrogens. We recently cloned a human liver estrogen sulfotransferase (EST) cDNA. We have now determined the structure and chromosomal localization of the EST gene, STE, as a step toward molecular genetic studies of the regulation of EST in humans. STE spans approximately 20 kb and consists of 8 exons, ranging in length from 95 to 181 bp. The locations of most exon-intron splice junctions within STE are identical to those found in a human phenol ST (PST) gene, STM, and in a rat PST gene. In addition, the locations of five STE introns are also conserved in the human dehydroepiandrosterone (DHEA) ST gene, STD. The 5'-flanking region of STE contains one CCAAT and two TATA sequences. The location of one of the TATA box elements is in excellent agreement with the site of transcription initiation as determined by 5'-rapid amplification of cDNA ends. STE was mapped to human chromosome 4q13.1 by fluorescence in situ hybridization. Cloning and structural characterization of STE will now make it possible to study potential molecular genetic mechanisms involved in the regulation of EST in human tissues.
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PMID:Human estrogen sulfotransferase gene (STE): cloning, structure, and chromosomal localization. 853 66

A series of benzyl-substituted phthalonitriles, substituted at the 3-, 4-, and 4,5-positions, underwent varied condensations with phthalonitrile to give a series of protected (monohydroxy- and polyhydroxyphthalocyaninato)zinc(II) derivatives which were readily cleaved to give several hydroxyphthalocyanines (ZnPc) (phthalocyanine phenol analogues). Their efficacy as sensitizers for the photodynamic therapy (PDT) of cancer was evaluated on the EMT-6 mammary tumor cell line. In vitro, the 2-hydroxy ZnPc (32) was the most active, followed by the 2,3- and 2,9-dihydroxy ZnPc (39 and 45), with the 2,9,16-trihydroxy ZnPc (33) exhibiting the least activity. In vivo, the monohydroxy derivative 32 and the 2,3-dihydroxy derivative 39 were both efficient in inducing tumor necrosis at 1 micromol kg-1, but complete tumor regression was poor, even at 2 micromol/kg. In contrast, the 2,9-dihydroxy isomer 45, at 2 micromol kg-1, induced tumor necrosis in all animals treated, with 75% complete regression. These results underline the importance of the position of the substituents on the Pc macrocycle to optimize tumor response and confirm the PDT potential of the unsymmetrical Pcs bearing functional groups on adjacent benzene rings.
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PMID:Hydroxyphthalocyanines as potential photodynamic agents for cancer therapy. 959 30

We have cloned and characterized cDNAs that encode two human hydroxysteroid sulfotransferase (SULT) enzymes, SULT2B1a and SULT2B1b, as well as the single gene that encodes both of these enzymes. The two cDNAs differed at their 5'-termini and had 1050- and 1095-bp open reading frames that encoded 350 and 365 amino acids, respectively. The amino acid sequences encoded by these cDNAs included "signature sequences" that are conserved in all known cytosolic SULTs. Both cDNAs appeared, on the basis of amino acid sequence analysis, to be members of the hydroxysteroid SULT "family, " SULT2, but they were only 48% identical in amino acid sequence with the single known member of that family in humans, SULT2A1 (also referred to as DHEA ST). Northern blot analysis demonstrated the presence of SULT2B1 mRNA species approximately 1.4 kb in length in human placenta, prostate, and trachea and-faintly-in small intestine and lung. Expression of the two human SULT2B1 cDNAs in COS-1 cells showed that both of the encoded proteins catalyzed sulfation of the prototypic hydroxysteroid SULT substrate, dehydroepiandrosterone, but both failed to catalyze the sulfate conjugation of 4-nitrophenol or 17beta-estradiol, prototypic substrates for the phenol and estrogen SULT subfamilies. Both of these cDNAs were encoded by a single gene, SULT2B1. The locations of most exon-intron splice junctions in SULT2B1 were identical to those of the only other known human hydroxysteroid SULT gene SULT2A1 (previously STD). The divergence in 5'-terminal sequences of the two SULT2B1 cDNAs resulted from alternative transcription initiation prior to different 5' exons, combined with alternative splicing. SULT2B1 mapped to human chromosome band 19q13.3, approximately 500 kb telomeric to the location of SULT2A1.
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PMID:Human hydroxysteroid sulfotransferase SULT2B1: two enzymes encoded by a single chromosome 19 gene. 979 94

Cytosolic sulfotransferases (ST) catalyze the sulfation of various phenolic agents, catecholamines, thyroid hormones, steroids, drugs, and procarcinogens, usually resulting in the inactivation and subsequent excretion of the compound. My laboratory's efforts have focused on the cloning of the human phenol-sulfating (PST) members of this gene superfamily, implicated in the bioactivation of the hair growth stimulant, minoxidil. At least two major forms of human PST enzymes have been characterized biochemically, the phenol-preferring PST (P-PST), and the catecholamine-preferring PST (M-PST). Various cDNAs have been cloned representing alleles of 3 gene loci termed as STP1, STP2, and STM, which were all mapped precisely to a small region on human chromosome 16p and to the homologous region of mouse chromosome 7. Human cosmid genomic clones have been sequenced to determine the genomic organization for each of the 3 highly-related genes. All contain 7 coding exons, with conserved intron-exon boundaries, and presumptive alternative tissue-specific promoters. At least one of the 3 PST-encoding genes is responsible for forming minoxidil sulfate in the lower outer root sheath of anagen hair follicles. The steroid sulfating genes, STD and STE, have been cloned by other laboratories. The isozyme products of these genes sulfate DHEA and estrogens, respectively. I hypothesize that either STE or STD is involved in the formation of cholesterol sulfate (CS) in epidermal keratinocytes. CS has been demonstrated by other groups to be an activator of keratinocyte Protein Kinase Ceta, which subsequently results in the activation of epidermal transglutaminase and formation of the cornified envelop. STE or STD might also be involved in bioinactivation of estrogens and androgens within skin. Our recent unpublished results have focused on elucidating the patterns of ST gene expression in cultured keratinocytes and fibroblasts derived from human skin using RT-PCR, to understand which of the 5 different ST genes in involved in the regulation of keratinocyte differentiation and minoxidil-induced hair growth.
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PMID:Molecular biology of the human cytosolic sulfotransferase gene superfamily implicated in the bioactivation of minoxidil and cholesterol in skin. 1043 54

A method is described for the rapid determination of alkylphenols in nonpolar matrixes. The alkylphenols are derivatized with ferrocenecarboxylic acid chloride so that every phenol molecule is labeled with one iron atom. The resulting esters are analyzed by gas chromatography with atomic emission detection (AED) in the iron-selective detection mode. This method utilizes the AED's low detection limit (0.05 pg/s) for iron and the high selectivity versus carbon (3.5 x 10(6)) for the detection of the alkylphenols. Because the derivatization is performed before the first step of sample preparation, the risk of analyte loss by adsorption or volatilization is minimized. The total recoveries in the lower ppm concentration range vary between 79 and 125%. The quantification of 20 C0-C3-alkylphenols in crude oils is demonstrated by analyzing a shale oil (SRM 1580) and a petroleum crude oil (SRM 1582). The complete workup is easily carried out in only 45 min/sample.
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PMID:Determination of alkylphenols after derivatization to ferrocenecarboxylic acid esters with gas chromatography-atomic emission detection. 1146 56

The search for effective chemopreventive compounds is a major challenge facing research into preventing the progression of cancer cells. The naturally occurring polyphenol antioxidants look very promising, but their mechanism of action still remains poorly understood. Here, we show that 2-(3,4-dihydroxyphenyl)ethanol (DPE), a phenol antioxidant derived from olive oil, induces growth arrest and apoptosis in human colon carcinoma HT-29 cells. The mechanisms involve prolonged stress of the endoplasmic reticulum (ER) leading to the activation of the two main branches of the unfolded protein response (UPR), including the Ire1/XBP-1/GRP78/Bip and PERK/eIF2alpha arms. DPE treatment led to overexpression of the pro-apoptotic factor CHOP/GADD153 and persistent activation of the Jun-NH2-terminal kinase/activator protein-1 signaling pathway. DPE concomitantly modulated the extracellular signal-regulated kinase 1/2 and Akt/PKB pro-survival factors by altering their phosphorylation status as well as inhibiting tumor necrosis factor-alpha-induced nuclear factor-kappaB activation by inactivating the phosphorylation of nuclear factor inhibitor-kappaB kinase. These findings prompted us to investigate the possible involvement of phosphatases in DPE-mediated action. Using phosphatase inhibitors and RNA interference to silence the Ser/Thr phosphatase 2A (PP2A) prevented DPE-induced cell death. These findings demonstrate that DPE specifically activates PP2A, which plays a key initiating role in various pathways that lead to apoptosis in colon cancer cells.
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PMID:Dihydroxyphenylethanol induces apoptosis by activating serine/threonine protein phosphatase PP2A and promotes the endoplasmic reticulum stress response in human colon carcinoma cells. 1652 88

Lignins are the most abundant aromatic compounds in nature, and their decomposition is essential to the terrestrial carbon cycle. White rot fungi secreting phenol oxidases are assumed to be involved in the initial degradation of native lignin, whereas bacteria play a main role in the mineralization of lignin-derived low-molecular-weight compounds in soil. There are a number of reports on the degradation pathways for lignin-derived aromatic compounds, but their catabolism has not been enzymatically or genetically characterized. Sphingomonas paucimobilis SYK-6 is one of the best-characterized lignin-degrading bacteria. It can grow on a wide variety of lignin-related biaryls and monoaryls, including beta-aryl ether, biphenyl, diarylpropane, and phenylpropane. These compounds are degraded via the protocatechuate (PCA) 4,5-cleavage pathway or multiple 3-O-methylgallate (3MGA) catabolic pathways. In this review, the enzyme systems for beta-aryl ether and biphenyl degradation, O demethylation linked with one carbon metabolism, the PCA 4,5-cleavage pathway, and the multiple 3MGA catabolic pathways in SYK-6 are outlined.
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PMID:Genetic and biochemical investigations on bacterial catabolic pathways for lignin-derived aromatic compounds. 1721 57


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