Joseph P. Burkhart

The inhibition of human neutrophil elastase and cathepsin G by peptidyl 1,2-dicarbonyl derivatives

Neutrophil elastase and cathepsin G are serine proteases that can damage connective tissue and trigger other pathological reactions. Compounds containing a peptide sequence to impart specificity and bearing an alpha-dicarbonyl unit (alpha-diketone or alpha-keto ester) at the carboxy terminus are potent inhibitors of the neutrophil serine proteases (human neutrophil elastase: R-Val-COCH3, Ki = 0.017 microM; R-Val-COOCH3, Ki = 0.002 microM; human neutrophil cathepsin G: R-Phe-COCH3, Ki = 0.8 microM; R-Phe-COOCH3, Ki = 0.44 microM; R = N-(4-[(4-chlorophenyl)sulfonylaminocarbonyl]phenylcarbonyl)+ ++ValylProlyl).

Oxidation of α-hydroxy esters to α-keto esters using the dess-martin periodinane reagent

Abstract The oxidation of α-hydroxy esters, including peptidyl α-hydroxy esters, with the Dess-Martin periodinane reagent is a useful and general method for the preparation of α-keto esters.

Inhibition of steroid C17(20) lyase with C-17-heteroaryl steroids

Steroids bearing a heteroaromatic substituent at C-17 were designed as inhibitors of C17(20) lyase. The thiazoles, furans, and thiophenes appended to the steroid nucleus were positioned on the alpha-face and the beta-face of the steroid, and conjugated with a 16,17-olefin, to test their ability to coordinate the heme iron of the P450 enzyme complex. The position of the heterocycle with respect to the steroid skeleton was determined to be important for optimum affinity and, in general, compounds with the heterocycle attached to a trigonal center at C-17, had the best affinity for C17(20) lyase. Simple molecular models were used to compare the three types of heterocyclic-substituted steroids.

A novel method for the preparation of peptidyl α-keto esters

Abstract A new method for the synthesis of peptidyl α-keto esters is described, which is particularly useful for the construction of proteinase inhibitors with a lysine side chain.

Prolyl endopeptidase inhibitors

The present invention relates to compounds of formula 1, ##STR1## including all of its stereoisomers, compositions, and processes for preparation of the same. The compounds of the present invention are also useful in their pharmacological activities as they directly act as inhibitors of prolyl endopeptidase and thereby provide a methods for memory enhancement, preventing or slowing the affects of amnesia or memory deficits.

Efficient preparation of peptidyl pentaflouroethly ketones

A concise method for the preparation of α-amino pentafluoroethyl ketone salts from amino acids is described. These intermediates are useful for the preparation of peptidyl pentafluoroethyl ketones.

Biological characterization of A-ring steroids.

Hydroxylated 2,19-methylene-bridged androstenediones were designed as potential mimics of enzyme oxidized intermediates of androstenedione. These compounds exhibited competitive inhibition with low micromolar affinities for aromatase. These inhibitory constants (Ki values) were 10 times greater than the 2,19-methylene-bridged androstenedione constant (Ki = 35-70 nM). However, expansion of the 2,19-carbon bridge to ethylene increased aromatase affinity by 10-fold (Ki = 2 nM). Substitution of a methylene group with oxygen and sulfur in this expanded bridge resulted in Ki values of 7 and 20 nM, respectively. When the substituent was an NH group, the apparent inhibitory kinetics changed from competitive to uncompetitive. All of these analogs exhibited time-dependent inhibition of aromatase activity following preincubation of the inhibitor with human placental microsomes prior to measuring residual enzyme activity. Part of this inhibition was NADPH cofactor-dependent for the 2,19-methyleneoxy- but not for the 2,19-ethylene-bridged androstenedione. The time-dependent inhibition for these four analogs was very rapid since they exhibited tau 50 values, the t1/2 for enzyme inhibition at infinite inhibitor concentration, of 1 to 3 min. These A-ring-bridged androstenedione analogs represent a novel series of potent steroidal aromatase inhibitors. The restrained A-ring bridge containing CH2, O, S, or NH could effectively coordinate with the heme of the P450 aromatase to allow the tight-binding affinities reflected by their nanomolar Ki values.

Novel silylated steroids as aromatase inhibitors

Androst-4-en-3-one analogs incorporating a trimethylsilyl or a trimethylsilylmethyl group at C-1, C-2 or C-19 were prepared and evaluated as inhibitors of aromatase. Only 10-[1-hydroxy-2-(trimethylsilyl)ethyl]estr-4-ene-3,17-dione inhibited human placental aromatase. Enzyme kinetic analysis revealed competitive inhibition [apparent dissociation constant (Ki) of 562 +/- 12 nM] associated with marginal time-dependent inhibition.

A-ring bridged steroids as potent inhibitors of aromatase

The design and syntheses of androstenedione derivatives with bridges spanning the 2,19-, 3,19-, 4,19- and 6, 19-positions are described. 2,19-Bridged compounds bearing hydroxyl groups on the two-carbon bridge (3a and 3b) were designed as stable carbon analogs of potential lactol intermediates in the enzymatic conversion of androgens to estrogens. Compounds 3a and 3b are competitive inhibitors of aromatase. Pyran 25 is a potent, time-dependent inhibitor of aromatase with partial NADPH dependence. These data suggest a mechanism of inhibition for 25 which involves both tight-binding competitive and mechanism-based components, with the former predominating. The sulfur, amino, and all carbon analogs of pyran 25 were prepared. Thiopyran 36, piperidine 42 and the all-carbon analog 47 are also time-dependent inhibitors of aromatase. Compound 47 is the most potent inhibitor and its time-dependent inhibition is not NADPH dependent. The kinetics of piperidine 42 suggest uncompetitive inhibition.

Preparation of α-keto ester enol acetates as potential prodrugs of human neutrophil elastase inhibitors

Enol acetates of a-keto esters with E configuration were prepared as potential prodrugs for human neutrophil elastase (HNE) inhibitors.