P. Romiti scite author profile

P. Romiti

5Publications

38Citation Statements Received

88Citation Statements Given

How they've been cited

104

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Affiliations

University of Pisa, General Department of Preventive Medicine

Publications

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Thiopurine Methyltransferase in Humans: Development and Tissue Distribution

Pacifici

Romiti²,

Giuliani³

et al. 1991

Dev Pharmacol Ther

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Thiopurine methyltransferase (EC 2.1.1.67, TPMT) was studied with 6-mercaptopurine as substrate in the cytosolic fraction from 18 human fetal liver, 16 placental and 22 adult liver specimens. TPMT activity (pmol × min^-1 × mg^-1; mean ± SD) was 33.2 ± 15.8 (fetal liver), 19.5 ± 11.1 (placenta) and 105 ± 57.1 (adult liver). Fetal liver activity of TPMT is one third that in adult liver suggesting that this enzyme is well developed in the midgestational human fetus. The distribution of TPMT seems to be ubiquitous both in the fetus and adult subject. The kidney is an important site of methylation as suggested by the renal activity of TPMT (197 ± 70 pmol × min^-1 × mg^-1) which is twice as high as the hepatic one. Fetal and adult hepatic TPMT obey nonmichaelian kinetics. Two phases, one with lower and one with higher affinity for 6-mercaptopurine, were observed. The average K(m) for the high affinity phase was 0.12 mmol/l (fetus) and 0.13 mmol/l (adult), whereas the K(m) for the lower affinity phase was 1.79 mmol/l (fetus) and 1.42 mmol/l (adult). This paper shows that TPMT develops before the second trimester of gestation in human fetus, that it has an ubiquitous distribution in the human fetus and adult subjects and the kinetic pattern of this enzyme is consistent in fetal and adult liver.

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S-methyltransferases in human intestine: differential distribution of the microsomal thiol methyltransferase and cytosolic thiopurine methyltransferase along the human bowel

et al. 1993

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1. The activities of the microsomal thiol methyltransferase and the cytosolic thiopurine methyltransferase were measured with 2-mercaptoethanol and 6-mercaptopurine as substrates in human ileum, ascending colon, transverse colon, descending colon and liver. 2. Thiol methyltransferase activity (pmol/min per mg) (mean +/- SD) was 495 +/- 280 (ileum), 786 +/- 454 (ascending colon), 1791 +/- 233 (transverse colon), 964 +/- 484 (descending colon) and 4800 +/- 1194 (liver). 3. Thiopurine methyltransferase (pmol/min per mg) (mean +/- SD) was 53.5 +/- 15.4 (ileum), 34.6 +/- 11.4 (ascending colon), 64.3 +/- 12.1 (transverse colon), 57.0 +/- 10.1 (descending colon) and 106 +/- 20.4 (liver). 4. Transferase in intestinal mucosa followed non-Michaelis-Menten kinetics, and two phases representing high and low affinity forms, for the acceptor methyl substrates were observed. 5. Comparison of intestinal with hepatic activities showed that thiopurine methyltransferase is better expressed than thiol methyltransferase in the human intestine, at least with the substrates studied.

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Interindividual variability in the N‐sulphation of desipramine in human liver and platelets.

Romiti

Giuliani

Pacifici

1992

Brit J Clinical Pharma

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Profile of Drug-Metabolizing Enzymes in the Cortex and Medulla of the Human Kidney

et al. 1989

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The cortex and medulla were isolated from kidneys whose donors (5 men and 1 woman, aged between 44 and 68 years) were undergoing nephrectomy to remove a tumor. Kidneys with normal architecture for at least two thirds of the organ were included in the study. Tissue specimens used in our experiments were free from pathological changes. The activities of the following enzymes of phase INADPH cytochrome c reductase, aminopyrine N-demethylase, ethoxycoumarin O-deethylase, ethoxyresorufin O-deethylase, microsomal and cytosolic epoxide hydrolases, glutathione reductase and glutathione peroxidase, and those of the following enzymes of phase II glutathione transferase, glucuronyl transferase, sulphotransferase, acetyltransferase, thiomethyltransferase, thiopurinemethyltransferase, thioltransferase and glyoxalase were measured. The activity in renal cortex was significantly higher than in medulla for NADPH cytochrome c reductase, cytosolic epoxide hydrolase, glutathione reductase and glutathione peroxidase (phase I enzymes), and glutathione transferase, acetyltransferase, thiomethyltransferase, thiopurinemethyltransferase, thioltransferase and glyoxalase (phase II enzymes). The other enzymes had similar activity in cortex and medulla. The distribution pattern of drug-metabolizing enzymes in the human kidney cannot be considered as a single pattern because of the observed enzyme-dependent differences between cortex and medulla.

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Interindividual variability of sulphation of desipramine and minoxidil in human liver and platelets

Pacifici

Romiti

Bigotti

et al. 1990

Pharmacological Research

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P. Romiti

Thiopurine Methyltransferase in Humans: Development and Tissue Distribution

S-methyltransferases in human intestine: differential distribution of the microsomal thiol methyltransferase and cytosolic thiopurine methyltransferase along the human bowel

Interindividual variability in the N‐sulphation of desipramine in human liver and platelets.

Profile of Drug-Metabolizing Enzymes in the Cortex and Medulla of the Human Kidney

Interindividual variability of sulphation of desipramine and minoxidil in human liver and platelets

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