Takushi Kaneko scite author profile

Reducing the burden of infectious diseases that affect people in the developing world requires sustained collaborative drug discovery efforts. The quality of the chemical starting points for such projects is a key factor in improving the likelihood of clinical success, and so it is important to set clear go/no-go criteria for the progression of hit and lead compounds. With this in mind, the Japanese Global Health Innovative Technology (GHIT) Fund convened with experts from the Medicines for Malaria Venture, the Drugs for Neglected Diseases initiative and the TB Alliance, together with representatives from the Bill &Melinda Gates Foundation, to set disease-specific criteria for hits and leads for malaria, tuberculosis, visceral leishmaniasis and Chagas disease. Here, we present the agreed criteria and discuss the underlying rationale.

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Identification of a small molecule with activity against drug-resistant and persistent tuberculosis

Wang

Sambandan

Halder

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

205

215

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Significance The global problem of TB has worsened in recent years with the emergence of drug-resistant organisms, and new drugs are clearly needed. In a cell-based high-throughput screen, a small molecule, TCA1, was discovered that has activity against replicating and nonreplicating Mycobacterium tuberculosis . It is also efficacious in acute and chronic rodent models of TB alone or combined with frontline TB drugs. TCA1 functions by a unique mechanism, inhibiting enzymes involved in cell wall and molybdenum cofactor biosynthesis. This discovery represents a significant advance in the search for new agents to treat persistent and drug-resistant TB.

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New target for inhibition of bacterial RNA polymerase: ‘switch region’

Srivastava

Talaue

Liu

et al. 2011

Current Opinion in Microbiology

164

177

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A new drug target-- the "switch region"--has been identified within bacterial RNA polymerase (RNAP), the enzyme that mediates bacterial RNA synthesis. The new target serves as the binding site for compounds that inhibit bacterial RNA synthesis and kill bacteria. Since the new target is present in most bacterial species, compounds that bind to the new target are active against a broad spectrum of bacterial species. Since the new target is different from targets of other antibacterial agents, compounds that bind to the new target are not cross-resistant with other antibacterial agents. Four antibiotocs that function through the new target have been identified: myxopyronin, corallopyronin, ripostatin, and lipiarmycin. This review summarizes the switch region, switch-region inhibitors, and implications for antibacterial drug discovery.

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(6-Maleimidocaproyl)hydrazone of doxorubicin. A new derivative for the preparation of immunoconjugates of doxorubicin

Willner¹,

Pa²,

Sj³

et al. 1993

Bioconjugate Chem.

212

170

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The (6-maleimidocaproyl)hydrazone of doxorubicin was synthesized and conjugated to several mAbs, including chimeric BR96, via a Michael addition reaction to thiol-containing mAbs. DTT reduction of disulfides present in the mAb was a reliable and general method for generating a consistent number of reactive SH groups. The conjugates, after purification by Bio-Beads, were free of unreacted linker and/or doxorubicin. All conjugates released doxorubicin under acidic conditions that mimic the lysosomal environment, while they were relatively stable at neutral pH. BR96 conjugates showed antigen-specific cytotoxicity.

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CP-225,917 and CP-263,114: Novel Ras Farnesylation Inhibitors from an Unidentified Fungus. 2. Structure Elucidation

et al. 1997

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The structure elucidations of new fungal products CP-225,917 and CP-263,114 are described. The structures, including relative stereochemistry, were established using a variety of analytical data and extensive NMR analysis. The compounds possess a bicyclo[4.3.1]deca-1,6-dien-10-one system in conjunction with a maleic anhydride moiety, a γ-lactol, and two alkenyl side chains. They are related to nonadrides, and their biosynthetic origins are proposed. The producing organism also yields zaragozic acid A, and both zaragozic acids and compounds CP-225,917 and CP-263,114 appear to be derived from the condensation of oxaloacetic acid and the corresponding monocarboxylic acid.

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Takushi Kaneko

Hit and lead criteria in drug discovery for infectious diseases of the developing world

Identification of a small molecule with activity against drug-resistant and persistent tuberculosis

New target for inhibition of bacterial RNA polymerase: ‘switch region’

(6-Maleimidocaproyl)hydrazone of doxorubicin. A new derivative for the preparation of immunoconjugates of doxorubicin

CP-225,917 and CP-263,114: Novel Ras Farnesylation Inhibitors from an Unidentified Fungus. 2. Structure Elucidation

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