Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00790 (PGA)
 2,475 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of transforming growth factor alpha (TGFalpha) and prostaglandins (PGs) in the preferential growth of preneoplastic liver cells was studied. Rats received the genotoxic hepatocarcinogen N-nitrosomorpholine (NNM); placental glutathione S-transferase (GSTp) was used as a marker to identify preneoplastic foci. Preneoplastic foci expressing TGFalpha (TGFalpha(+)) grew more rapidly than TGFalpha negative (TGFalpha(-)) ones. Almost all tumours studied were positive for TGFalpha. The key enzymes of prostaglandin synthesis, cyclooxygenase I (Cox-1) and II (Cox-2), were present in all unaltered and preneoplastic cells and tended to decrease in the later stages of hepatocarcinogenesis. Immunostaining revealed that cultures of hepatocytes, isolated from NNM-treated livers by collagenase perfusion, contained 1-2% GSTp-positive (GSTp(+)) and 9% TGFalpha(+) hepatocytes; 0.6% of the cells were GSTp(+)/TGFalpha(+). Cox-1 and Cox-2 were present in all cells. DNA replication was almost exclusively associated with expression of TGFalpha. GSTp(+) hepatocytes showed a 3- to 4-fold higher probability of TGFalpha expression and of DNA synthesis than GSTp-negative (GSTp(-)) cells. PGE(2) or PGF(2alpha) increased expression of TGFalpha and DNA replication in GSTp(-) cells but not in GSTp(+) cells. PGA(2) and PGJ(2) decreased DNA synthesis in TGFalpha(+) cells without an obvious effect on the intracellular levels of TGFalpha. The Cox-2 inhibitor SC236 suppressed DNA replication preferentially in GSTp(+) cells; this inhibition was reversed by PGE(2)/F(2alpha). Indomethacin had no effect. These results suggest the following conclusions. (i) Growth regulation of preneoplastic GSTp(+) cells in culture exhibits distinct differences from GSTp(-) cells and elevated expression of TGFalpha contributes to their growth advantage. (ii) TGFalpha renders preneoplastic hepatocytes sensitive to suppression of DNA synthesis by PGA(2)/J(2). (iii) SC236, a Cox-2 inhibitor, may have preventive value in hepatocarcinogenesis.
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PMID:Role of transforming growth factor alpha and prostaglandins in preferential growth of preneoplastic rat hepatocytes. 1147 Jul 56

Glutathione transferases (GSTs) are a large family of enzymes that can be divided into different classes based on structure. There has been considerable interest in the ability of GSTs to conjugate and inactivate endogenously derived reactive lipid peroxidation products that contain alpha,beta-unsaturated carbonyl moieties such as 4-hydroxyalkenals. One enzyme with prominent activity toward these substrates is human GST A4-4. Recently, we described a novel series of compounds termed A(2)/J(2)-isoprostanes (IsoPs) that are formed endogenously in humans from the free radical-initiated peroxidation of arachidonic acid. These compounds contain alpha,beta-unsaturated carbonyl groups and have structures similar to cyclooxygenase-derived PGA(2) and PGJ(2). Because of their chemical reactivity, these compounds may mediate tissue injury associated with oxidant stress. Herein, we report that the A-ring IsoP 15-A(2t)-IsoP (8-iso-PGA(2)) is efficiently conjugated to glutathione (GSH) by human GST A4-4 with a k(cat)/K(m) value of >200 s(-)(1) mM(-)(1). The k(cat)/K(m) value for conjugation of 15-A(2t)-IsoP by the homologous rat GST A4-4 is >2000 s(-)(1) mM(-)(1). Similar high enzyme activities were observed when PGA(2) was used as a substrate. In contrast, the human GSTs A1-1, M1-1, M2-2, P1-1, and T1-1 and rat GST T2-2 did not significantly metabolize 15-A(2t)-IsoP. These studies have therefore defined a potentially important route by which cyclopentenone IsoPs are metabolized that may serve as a mechanism for the inactivation of these highly reactive compounds.
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PMID:The cyclopentenone product of lipid peroxidation, 15-A(2t)-isoprostane (8-isoprostaglandin A(2)), is efficiently conjugated with glutathione by human and rat glutathione transferase A4-4. 1223 Apr 3

Prostanoids with cyclopentenone structure (cyP) display a potent anti-inflammatory and antiproliferative activity. CyP are reactive compounds, which may modulate cellular functions by multiple mechanisms, including the direct covalent modification of cysteine residues by Michael addition. This interaction displays selectivity since only a subset of cellular proteins is modified by cyP. Several factors have been proposed to influence the selectivity and/or extent of cyP addition to proteins, including determinants related to protein and cyP structure, and levels of cellular thiols, such as glutathione (GSH). Here we have explored the ability of biotinylated cyP analogs to modify several recombinant proteins in vitro, and the influence of GSH in these effects. We have observed that protein modification by cyP is protein- and cyP-selective. Under our conditions, biotinylated 15-deoxy-Delta(12,14)-PGJ(2) (15d-PGJ(2)-B) was more efficient than biotinylated PGA(1) (PGA(1)-B) at forming adducts with components of the transcription factors NF-kappaB and activator protein-1 (AP-1). However, both biotinylated cyP were nearly equipotent at modifying human GSTP1-1. Interestingly, the presence of GSH differentially modulated the formation of protein-cyP adducts. Under our conditions, GSH reduced the incorporation of cyP into GST, but improved their binding to p50, more intensely in the case of PGA(1)-B. These results evidence the importance of GSH-cyP and/or GSH-protein interactions for the selectivity of protein modification by cyP and suggest a complex role for GSH that may be related to its ability to prevent protein oxidation or induce conformational alterations. This may shed light on the factors involved in the pleiotropic effects of electrophiles with therapeutic potential.
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PMID:Modification of proteins by cyclopentenone prostaglandins is differentially modulated by GSH in vitro. 1740 18