Onychomycosis and its Chemotherapy.

Onychomycosis (fungal nail infections) is very common worldwide but is fortunately not often lethal. Several powerful drugs have been introduced into clinical practice in recent years, but these infections remain difficult to cure primarily due to the difficulty of penetration of drug to the site of the infection in therapeutic concentrations. The nature of the disease, the causative fungi, and the characteristics of the drugs employed to treat this condition are discussed in this review.

Recent progress in the chemotherapy of human fungal diseases. Emphasis on 1,3-β-glucan synthase and chitin synthase inhibitors.

Systemic fungal infections of humans and economically important animals are increasingly common throughout the world. These infections are severe and often hard to treat with existing safe, oral medications. Thus there has been increasing research on alternatives resulting in study of natural and synthetic inhibitors of 1,3-β-Glucan synthase (GS) and chitin synthase (CS)-enzymes important in the biosynthesis of fungal cell walls that are not utilized in human biochemistry.

Structure-activity relationships of trimethoxybenzyl piperazine N-type calcium channel inhibitors.

We previously reported the small organic N-type calcium channel blocker NP078585 that while efficacious in animal models for pain, exhibited modest L-type calcium channel selectivity and substantial off-target inhibition against the hERG potassium channel. Structure-activity studies to optimize NP078585 preclinical properties resulted in compound 16, which maintained high potency for N-type calcium channel blockade, and possessed excellent selectivity over the hERG (~120-fold) and L-type (~3600-fold) channels. Compound 16 shows significant anti-hyperalgesic activity in the spinal nerve ligation model of neuropathic pain and is also efficacious in the rat formalin model of inflammatory pain.

Application of phase-trafficking methods to natural products research.

A novel simultaneous phase-trafficking approach using spatially separated solid-supported reagents for rapid separation of neutral, basic, and acidic compounds from organic plant extracts with minimum labor is reported. Acidic and basic ion-exchange resins were physically separated into individual sacks ("tea bags") for trapping basic and acidic compounds, respectively, leaving behind in solution neutral components of the natural mixtures. Trapped compounds were then recovered from solid phase by appropriate suspension in acidic or basic solutions.

Structure-activity relationships of diphenylpiperazine N-type calcium channel inhibitors.

A novel series of compounds derived from the previously reported N-type calcium channel blocker NP118809 (1-(4-benzhydrylpiperazin-1-yl)-3,3-diphenylpropan-1-one) is described. Extensive SAR studies resulted in compounds with IC(50) values in the range of 10-150 nM and selectivity over the L-type channels up to nearly 1200-fold. Orally administered compounds 5 and 21 exhibited both anti-allodynic and anti-hyperalgesic activity in the spinal nerve ligation model of neuropathic pain.

Scaffold-based design and synthesis of potent N-type calcium channel blockers.

The therapeutic agents flunarizine and lomerizine exhibit inhibitory activities against a variety of ion channels and neurotransmitter receptors. We have optimized their scaffolds to obtain more selective N-type calcium channel blockers. During this optimization, we discovered NP118809 and NP078585, two potent N-type calcium channel blockers which have good selectivity over L-type calcium channels.

Coevolution: mankind and microbes.

In just 70 short years mankind has progressed from euphoria to despair over the effectiveness of antibiotics to protect and to cure mankind from morbidity and mortality from infectious diseases. Resistance due to evolutionary factors was observed shortly after antibiotics came into use and is now not only widespread but appears to be inevitable. This review is a rather personalized account of the various attempts to deal with this problem over time.

Ionic immobilization, diversification, and release: application to the generation of a library of methionine aminopeptidase inhibitors.

Development of an ionic immobilization, diversification, and release method for the generation of methionine aminopeptidase inhibitors is reported. This method involves the immobilization of 5-bromofuran-2-carboxylic acid and 5-bromothiophene-2-carboxylic acid onto PS-BEMP, followed by Suzuki reaction on a resin-bound intermediate and subsequent release to provide products in moderate yields and excellent purities. Compound potencies were evaluated on the Co(II), Mn(II), Ni(II), and Fe(II) forms of Escherichia coli MetAP1.

Studies towards the synthesis of methionine aminopeptidase inhibitors: diversification utilizing a ROMP-derived coupling reagent.

Efforts to synthesize potential methionine aminopeptidase inhibitors is described. Preliminary SAR and docking studies served as a guide to design the compound libraries. "Chromatography-free" synthesis of various heterocyclic amides was realized by using a high-load, soluble coupling reagent derived via ring-opening metathesis polymerization (ROMP).

Use of quantitative flow cytometry to measure ex vivo immunostimulant activity of echinacea: the case for polysaccharides.

Introduction: When directly exposed to various echinacea fractions, human leukocytes ex vivo are strongly stimulated to proliferate and to produce immunostimulation and inflammatory cytokines. A comparison of fractions containing lipoidal small molecules and high-molecular-weight water-soluble polysaccharides indicates that the latter are substantially more potent as immunostimulants. Echinacea purpurea (L.

Design, synthesis, and antiproliferative and CDK2-cyclin a inhibitory activity of novel flavopiridol analogues.

The design and synthesis of a small library of 8-amidoflavone, 8-sulfonamidoflavone, 8-amido-7-hydroxyflavone, and heterocyclic analogues of flavopiridol is reported. The potential activity of these compounds as kinase inhibitors was evaluated by cytotoxicity studies in MCF-7 and ID-8 cancer cell lines and inhibition of CDK2-Cyclin A enzyme activity in vitro. The antiproliferative and CDK2-Cyclin A inhibitory activity of these analogues was significantly lower than the activity of flavopiridol.

Further exploration of antimicrobial ketodihydronicotinic acid derivatives by multiple parallel syntheses.

A synthetic reexamination of a series of ketodihydronicotinic acid class antibacterial agents was undertaken in an attempt to improve their therapeutic potential. A convenient new synthesis was developed involving hetero Diels-Alder chemistry producing 74 new analogs in a multiple parallel synthetic manner and these were examined in vitro for their antimicrobial potential. Several compounds demonstrated significant broad-spectrum activity against clinically derived bacterial strains but previously known 1-(2,4-difluorophenyl)-6-(4-dimethylaminophenyl)-4-pyridone-3-carboxylic acid (7) remained the most potent compound in this class.

The Medicinal and Bioorganic Chemistry Foundation--third winter conference. 23-29 January 1999, Steamboat Springs, CO, USA.

This was the third of an ongoing series of biennial conferences held in a relaxed setting, where medicinal chemists congregated to discuss recent enabling developments in organic-medicinal chemistry and biological findings of relevance to the selection of promising drug targets. Approximately 240 academic, industrial and government scientists gathered for this 5-day symposium devoted to optimization in chemical synthesis, methodologies for parallel array medicinal chemistry, applications of structural biology to drug discovery, impact of genomics technologies on pharmaceutical research, and multidrug resistance (MDR). In addition, a keynote address was delivered by Steven Hanessian (University of Montreal, Canada) on "Synthesis.

Chiral DNA gyrase inhibitors. 3. Probing the chiral preference of the active site of DNA gyrase. Synthesis of 10-fluoro-6-methyl-6,7-dihydro-9-piperazinyl- 2H-benzo[a]quinolizin-20-one-3-carboxylic acid analogues.

In pursuit of an apparent literature anomaly, S- and R-6-methyl-6,7-dihydro-2H-benzo[a]quinolizin-2-one-3-carboxylic acids (12 and 22) were synthesized by an unambiguous route from optically active norephedrines, and their antibacterial potencies were measured. Against Gram-negative microorganisms and DNA gyrase a preference for S-absolute configuration was found whereas R-absolute stereochemistry was more active against Gram-positives. These results are in partial conflict with an earlier report.

Antimutagenic/antioxidant activity of green tea components and related compounds.

The ability of green tea components and other antioxidant compounds to function as antimutagens/antioxidants has been well established, and their role in cancer prevention is supported by numerous epidemiological studies. We have utilized modified Ames tests, superoxide scavenging assays, and assays for protection against DNA scissions to compare and contrast the protective effects of various teas and commercial and laboratory-isolated tea components to those produced by compounds such as resveratrol, selenium, curcumin, vitamins C and E, quercetin dihydrate, sulforaphane, ellagic acid dihydrate, glutathione reduced, trolox, butylated hydroxanisole (BHA), butylated hydroxytoluene (BHT), and N-acetyl-L-cysteine (NAC). In Ames tests, employing hydrogen peroxide as a mutagen, epigallocatechin gallate (EGCG) produced the highest level of protection of all antioxidants tested.

A parallel synthesis demonstration library of tri-substituted indazoles containing new antimutagenic/antioxidant hits related to benzydamine.

A solution phase strategy for the multiple parallel synthesis of a demonstration library of indazoles is described by which regio-selectivity problems inherent to previous syntheses of this nucleus are largely overcome. Synthesis of selected components proceeded satisfactorily indicating that a fully realized library of indazole analogs could readily be produced using this methodology. Simple modifications of the basic nucleophilic aromatic substitution route unambiguously produce a range of N-1 substitutions (alkyl, aryl and aralkyl) in 50-75% yields.

Tetraacyldiborates: selective and efficient acylation reagents suitable for multiple parallel synthetic applications.

Boron-based mixed anhydrides are rapidly reactive, easy to prepare, cheap, efficient, and general acylating reagents capable of selectivity when chelation is possible. High yields of various esters, amides and thioesters are quickly obtainable and the products are easy to isolate in high purity. The method is readily used under multiple parallel synthesis conditions and is readily scaleable.

The ability of certain antimutagenic agents to prevent development of antibiotic resistance.

Resistance to multiple antimicrobial agents has now become a prominent fact of contemporary life. It is believed that poor patient compliance, e.g.

Role of antimutagens/anticarcinogens in cancer prevention.

Recently it has become increasingly clear that chemicals found in our foods and beverages can prevent the genetic damage that leads to cancer initiation. Such substances may also affect subsequent events in the pathways that lead to cancer, and may have the potential to inhibit the mutations that allow tumor cells to become resistant to antitumor agents. We describe here the antimutagenic potential of Glabrene analogs against EMS-induced mutations utilizing modified Ames tests in S.

The 2-pyridone antibacterial agents: bacterial topoisomerase inhibitors.

Many attempts have been made to prepare analogs of 4-quinolone antibacterial agents bearing novel ring systems, which might retain the favorable properties of these widely used antibacterial agents and at the same time increase activity against multidrug-resistant bacteria, streptococci, and anaerobic microorganisms. One such attempt involved bioisosteric exchange of the 1-N atom and 4a-C atom of naphthyridones, quinolones, and benzoxazines to produce a family of highly active pyridopyrimidines, quinolizines, and ofloxacin bioisosteres. These new antibacterial agents have been named collectively as the 2-pyridones.

University education of medicinal chemists: comparison of eight countries.

Medicinal chemists are mainly taught in faculties or schools of pharmacy and are available for employment. Yet major pharmaceutical research companies seek organic chemists, rather than medicinal chemists, for new drug discovery. This apparent contradiction led the Medicinal Chemistry Section of IUPAC to send a questionnaire regarding postgraduate academic education for medicinal chemists to the faculties or schools of pharmacy in eight countries, namely, France, Germany, Italy, Japan, Spain, Switzerland, UK and USA.

Multiple drug resistance.

Multiple drug resistance to antibacterial agents, antifungals, antivirals, antiprotozoals, and antitumor agents has risen spectacularly in the last decade or so and presently threatens eventually to put an end to successful chemotherapy in all of the above fields. This review summarizes the known origins of the problem, its present dimensions, the means employed to combat the phenomenon and promising avenues for future developments.