Hans‐Peter Beck scite author profile

Recent reports of increased tolerance to artemisinin derivatives-the last widely effective class of antimalarials -bolster the medical need for new treatments. The spirotetrahydro-β-carbolines, or spiroindolones, are a new class of fast-acting and potent schizonticidal drugs displaying low nanomolar potency against Plasmodium falciparum and Plasmodium vivax clinical isolates. Spiroindolones rapidly diminish protein synthesis in P. falciparum, an effect that is ablated in parasites bearing non-synonymous mutations in the gene encoding the P-type cation-transporter ATPase4 (PfATP4). The optimized spiroindolone NITD609 shows an acceptable safety profile and pharmacokinetic properties compatible with once-daily oral dosing; and demonstrates singledose efficacy in a rodent malaria model. Collectively, these data demonstrate that NITD609 possesses a pharmacological profile suitable for a new drug candidate for the treatment of malaria.Globally, 3.3 billion people are exposed to malaria, a devastating disease that causes over 800,000 deaths each year and kills more under five-year-olds than any other infectious agent (1). Fifty years ago, malaria had been eliminated from many areas of the world through effective antimalarial drug treatments, vector control interventions and disease prevention # Corresponding authors (Winzeler@scripps.edu and Thierry.diagana@novartis.com). * These authors equally contributed to this work One-sentence summary We describe the pharmacological profile of a new antimalarial drug candidate-the spiroindolone NITD609-which through a novel mechanism of action rapidly clears a Plasmodium infection upon administration of a single oral dose in a malaria mouse model. NIH Public Access Author ManuscriptScience. Author manuscript; available in PMC 2011 September 3. (2). However, the global spread of drug resistance resulted, by the 1980s, in a substantial increase in disease incidence and mortality. Today, some encouraging epidemiological data suggest that the introduction of new drugs (notably the artemisinin-based combination therapies or ACTs) may have reversed that trend (3). Derivatives of the endoperoxide artemisinin constitute the only antimalarial drugs that remain effective in all malariaendemic regions, but recent reports suggest that decades of continuous use as monotherapies might have fostered the emergence of resistance (4-6). This realization has triggered a concerted search for new drugs that could be deployed if artemisinin resistance were to spread.Many of the therapies currently in development utilize known antimalarial pharmacophores (e.g. aminoquinolines and/or peroxides) chemically modified to overcome the liabilities of their predecessors (7). While these compounds may prove to be important in the treatment of malaria, it would be preferable to discover novel chemotypes with a distinct mechanism of action (8). However, despite significant advances in our understanding of Plasmodium genome biology, the identification and validation of new drug targets has proven challengi...

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Evolutionary history and global spread of the Mycobacterium tuberculosis Beijing lineage

Merker

et al. 2015

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Mycobacterium tuberculosis strains of the Beijing lineage are globally distributed and are associated with the massive spread of multidrug-resistant (MDR) tuberculosis in Eurasia. Here we reconstructed the biogeographical structure and evolutionary history of this lineage by genetic analysis of 4,987 isolates from 99 countries and whole-genome sequencing of 110 representative isolates. We show that this lineage initially originated in the Far East, from where it radiated worldwide in several waves. We detected successive increases in population size for this pathogen over the last 200 years, practically coinciding with the Industrial Revolution, the First World War and HIV epidemics. Two MDR clones of this lineage started to spread throughout central Asia and Russia concomitantly with the collapse of the public health system in the former Soviet Union. Mutations identified in genes putatively under positive selection and associated with virulence might have favored the expansion of the most successful branches of the lineage.

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Mycobacterium tuberculosis lineage 4 comprises globally distributed and geographically restricted sublineages

et al. 2016

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Generalist and specialist species differ in the breadth of their ecological niche. Little is known about the niche width of obligate human pathogens. Here we analyzed a global collection of Mycobacterium tuberculosis Lineage 4 clinical isolates, the most geographically widespread cause of human tuberculosis. We show that Lineage 4 comprises globally distributed and geographically restricted sublineages, suggesting a distinction between generalists and specialists. Population genomic analyses showed that while the majority of human T cell epitopes were conserved in all sublineages, the proportion of variable epitopes was higher in generalists. Our data further support a European origin for the most common generalist sublineage. Hence, the global success of Lineage 4 reflects distinct strategies adopted by different sublineages and the influence of human migration.

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Hans‐Peter Beck

Spiroindolones, a Potent Compound Class for the Treatment of Malaria

Evolutionary history and global spread of the Mycobacterium tuberculosis Beijing lineage

Mycobacterium tuberculosis lineage 4 comprises globally distributed and geographically restricted sublineages

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