R. Corigli scite author profile

R. Corigli

5Publications

28Citation Statements Received

31Citation Statements Given

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Nerviano Medical Sciences, Ospedale San Carlo

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Cephem Sulfones as Inactivators of Human Leukocyte Elastase. 5. 7.alpha.-Methoxy- and 7.alpha.-Chloro-1,1-dioxocephem 4-Ketones

Alpegiani¹,

Bissolino²,

Corigli³

et al. 1994

J. Med. Chem.

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Studies on cephem sulfones as inhibitors of human leukocyte elastase (HLE) have been extended to the new class of cephem 4-ketones. tert-Butyl and phenyl ketones were prepared from 4-carboxycephem derivatives, at either the sulfide or sulfone oxidation level, by chemoselective Grignard reaction. Obtained products were functionalized with heterocyclothio and acyloxy substituents at C-3', C-2, or both positions. tert-Butyl ketones of the 7 alpha-chlorocephem series were in general at least as potent as the corresponding esters at inhibiting the enzyme, but improvements in hydrolytic stability were only marginal. On the other hand, tert-butyl ketones of the 7 alpha-methoxycephem series combined potent biochemical activity with acceptable hydrolytic stability, thus overstepping the esters, thiolesters, and amides reported previously. In particular, the tert-butyl ketones possessing a heterocyclothio group at C-3' or C-2 were at least as active as the corresponding tert-butyl esters but 1 order of magnitude more stable in physiologic buffers (pH 7.4, 37 degrees C). Introduction of acyloxy groups at C-2 delivered the most potent HLE inhibitors of the cephem class ever reported, with inhibition parameters often outside the determination limits of our standard protocol (second-order rate constant kon > 2,000,000 M-1 s-1; Ki at steady state < 2 nM). Keto-enol tautomerism was found to depress activity and boost hydrolytic stability. Thus, double substitution with heterocyclic thiols produced compounds with diverging properties, according to the extent of enolate formation at the investigated pH (7.4): the weakly acidic tert-butyl ketones (pKa > or = 5.8) proved to be potent inhibitors (kon over 10(4) M-1 s-1) with reasonable hydrolytic stability (t1/2 = 30-75 h), while the phenyl ketones (pKa < 4) were fair inhibitors (kon over 10(3) M-1 s-1; Ki at steady state approximately 50 nM) with hydrolytic half-lives exceeding 1000 h. Selected compounds efficiently inhibited the degradation of insoluble bovine neck elastin by HLE in a concentration-dependent manner. Intracellular HLE of polymorphonuclear leukocytes was in general unaffected; however, a lipophilic cephem sulfone apparently able to inactivate the enzyme in living cells was identified.

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Pharmacokinetics in healthy subjects of FCE 22101 and its acetoxymethyl ester, FCE 22891: effect of co-administration of imipenem/cilastatin on the renal metabolism of FCE 22101

Norrby

Burman

Sassella³

et al. 1990

J Antimicrob Chemother

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The pharmacokinetics of FCE 22101 were studied in eight healthy male subjects who received FCE 22101 intravenously alone or together with imipenem/cilastatin which was given to inhibit dehydropeptidase-I, a renal enzyme metabolizing penem and carbapenem antibiotics. The kinetics of FCE 22101 were also studied following oral administration of its acetoxymethyl ester, FCE 22891. For comparative purposes, the kinetics of imipenem and cilastatin, given alone or together with FCE 22101, were calculated. Intravenously administered FCE 22101 at a dose of 250 mg gave peak plasma concentrations of about 12 mg/l and the plasma half-life was about 60 min. Co-administration of FCE 22101 with imipenem/cilastatin did not affect the plasma kinetics of FCE 22101, nor did FCE 22101 influence the kinetics of imipenem or cilastatin. Cilastatin increased the urinary recovery of FCE 22101 from 17.5% to 53.0% with FCE 22101 alone to 73.2% to 91.8% when it was given with cilastatin. There was a high correlation between the urinary recovery of FCE 22101 in this study and that of imipenem given alone to the same subjects in previous studies; subjects who were high metabolizers of imipenem were also high metabolizers of FCE 22101. When FCE 22891 was given orally at a dose of 500 mg (corresponding to 400 mg of FCE 22101 free acid), peak concentrations of 2.2 to 6.1 mg/l were found. The absorption was rapid with peak concentrations achieved 20 to 80 min after administration. In comparison with imipenem, FCE 22101 seems to undergo less non-renal metabolism.

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Tricyclic cephems as inhibitors of human leukocyte elastase. Furo[3,4-c]cepham sulfones

Alpegiani¹,

Bissolino²,

Corigli³

et al. 1995

Bioorganic & Medicinal Chemistry Letters

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Urinary recovery and tolerability of FCE 22101 following single intravenous administration under restricted and high fluid intake

Sassella¹,

Cassinelli²,

Corigli³

et al. 1989

Journal of Antimicrobial Chemotherapy

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The urinary recovery and tolerability of FCE 22101, a broad spectrum injectable penem, were investigated in a multicentre single-blind randomized crossover study of 60 healthy male volunteers. Single 1 g doses of FCE 22101 or placebo were given by intravenous bolus at weekly intervals. FCE 22101 was given either after intake of 750 ml water (treatment A) or after 8 h of water restriction (treatment B). Placebo was given under water restriction (treatment C). Urine samples obtained at timed intervals were assayed for FCE 22101 and its metabolites P1 and P2 by HPLC. The 24 h urinary recoveries of the parent drug and its metabolites were similar after treatments A and B. Mean recoveries +/- S.D were 29 +/- 13% (FCE 22101), 31 +/- 12% (P1) and 7 +/- 2% (P2) of the dose. Transient suprapubic pain or dysuria, or both, were reported by two subjects after treatment A and by six subjects after treatment B. Symptoms were associated with low urine volumes at 0-2 h and low urinary recovery of FCE 22101 and metabolite P1.

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Cephem sulfones as inactivators of human leukocyte elastase. II. Keto-enol tautomerish in cephem-4-ketones.

Alpegiani¹,

Bissolino²,

Borghi³

et al. 1992

Bioorganic & Medicinal Chemistry Letters

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R. Corigli

Cephem Sulfones as Inactivators of Human Leukocyte Elastase. 5. 7.alpha.-Methoxy- and 7.alpha.-Chloro-1,1-dioxocephem 4-Ketones

Pharmacokinetics in healthy subjects of FCE 22101 and its acetoxymethyl ester, FCE 22891: effect of co-administration of imipenem/cilastatin on the renal metabolism of FCE 22101

Tricyclic cephems as inhibitors of human leukocyte elastase. Furo[3,4-c]cepham sulfones

Urinary recovery and tolerability of FCE 22101 following single intravenous administration under restricted and high fluid intake

Cephem sulfones as inactivators of human leukocyte elastase. II. Keto-enol tautomerish in cephem-4-ketones.

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