Collection

2015 Nobel Prize in Physiology or Medicine

The Nobel Prize in Physiology or Medicine 2015 was awarded to William C. Campbell, Satoshi Ōmura and Youyou Tu.  

William Campbell and Satoshi Ōmura shared one-half of the prize for their discoveries of a new drug, Avermectin, that was highly effective against a spectrum of parasitic worm infections.  The derivatives of this compound are currently being used to eradicate and prevent the transmission of River Blindness and Lymphatic Filariasis.

Youyou Tu was awarded the other half of the Nobel Prize for her discovery of Artemisinin, a drug that has become a frontline treatment for malaria and has significantly reduced the mortality rates for patients suffering from this disease worldwide.

In celebration, NPG is making available a range of articles from its journal archives that feature these scientists’ remarkable achievements and highlight recent progress in these fields. 

Image Credit: EYE OF SCIENCE/SCIENCE PHOTO LIBRARY

News and Comments

  • Nature Reviews Microbiology | Review Article

    Entry of the antimalarial drug precursor semi-synthetic artemisinin into industrial production is the first major milestone for the application of synthetic biology. In this Review, Paddon and Keasling discuss the metabolic engineering and synthetic biology approaches that were used to engineer Escherichia coli and Saccharomyces cerevisiae to synthesize a precursor of artemisinin, which should aid the development of other pharmaceutical products.

    • Chris J. Paddon
    •  &  Jay D. Keasling
  • Nature Medicine | News

    Long ignored by pharmaceutical companies and global health agencies alike, 'neglected tropical diseases' devastate people in the poorest parts of the world. But they're finally getting the attention they deserve, reports Apoorva Mandavilli.

    • Apoorva Mandavilli
  • Nature Reviews Microbiology | Science and Society

    In this Science and Society article, Carl Nathan reviews historical collaborations between industry and academic instiutions that developed antimicrobials, and discusses similar strategies that have recently emerged to tackle the crisis of antimicrobial resistance.

    • Carl Nathan
  • Nature Reviews Drug Discovery | Review Article

    The screening of natural products for lead molecules is an attractive strategy, as most natural products fall within biologically relevant chemical space. In this Review, Harvey, Edrada-Ebel and Quinn discuss how advanced screening, metabolomics and metagenomics approaches can be used in the identification, validation and production of naturally sourced compounds, and highlight examples of naturally derived antimicrobials and inhibitors of protein–protein interactions.

    • Alan L. Harvey
    • , RuAngelie Edrada-Ebel
    •  &  Ronald J. Quinn

Reviews and Research

  • Nature Chemistry | Article

    Two semi-synthetic processes for the production of the antimalarial natural product artemisinin have been developed by applying the principles of green chemistry. Solvent manipulation allows catalyst recycling and reduction of waste, ultimately leading to a purification-free process with lower environmental and economic costs; a potential contribution to the world-wide fight against malaria.

    • Zacharias Amara
    • , Jessica F. B. Bellamy
    • , Raphael Horvath
    • , Samuel J. Miller
    • , Andrew Beeby
    • , Andreas Burgard
    • , Kai Rossen
    • , Martyn Poliakoff
    •  &  Michael W. George
  • Nature | Article

    In this study, the authors present an analysis of the malaria burden in sub-Saharan Africa between 2000 and 2015, and quantify the effects of the interventions that have been implemented to combat the disease; they find that the prevalence of Plasmodium falciparum infection has been reduced by 50% since 2000 and the incidence of clinical disease by 40%, and that interventions have averted approximately 663 million clinical cases since 2000, with insecticide-treated bed nets being the largest contributor.

    • S. Bhatt
    • , D. J. Weiss
    • , E. Cameron
    • , D. Bisanzio
    • , B. Mappin
    • , U. Dalrymple
    • , K. E. Battle
    • , C. L. Moyes
    • , A. Henry
    • , P. A. Eckhoff
    • , E. A. Wenger
    • , O. Briët
    • , M. A. Penny
    • , T. A. Smith
    • , A. Bennett
    • , J. Yukich
    • , T. P. Eisele
    • , J. T. Griffin
    • , C. A. Fergus
    • , M. Lynch
    • , F. Lindgren
    • , J. M. Cohen
    • , C. L. J. Murray
    • , D. L. Smith
    • , S. I. Hay
    • , R. E. Cibulskis
    •  &  P. W. Gething
  • Nature | Article

    The description of a compound (DDD107498) with antimalarial activity against multiple life-cycle stages of Plasmodium falciparum and good pharmacokinetic and safety properties, with potential for single-dose treatment, chemoprotection and prevention of transmission.

    • Beatriz Baragaña
    • , Irene Hallyburton
    • , Marcus C. S. Lee
    • , Neil R. Norcross
    • , Raffaella Grimaldi
    • , Thomas D. Otto
    • , William R. Proto
    • , Andrew M. Blagborough
    • , Stephan Meister
    • , Grennady Wirjanata
    • , Andrea Ruecker
    • , Leanna M. Upton
    • , Tara S. Abraham
    • , Mariana J. Almeida
    • , Anupam Pradhan
    • , Achim Porzelle
    • , María Santos Martínez
    • , Judith M. Bolscher
    • , Andrew Woodland
    • , Torsten Luksch
    • , Suzanne Norval
    • , Fabio Zuccotto
    • , John Thomas
    • , Frederick Simeons
    • , Laste Stojanovski
    • , Maria Osuna-Cabello
    • , Paddy M. Brock
    • , Tom S. Churcher
    • , Katarzyna A. Sala
    • , Sara E. Zakutansky
    • , María Belén Jiménez-Díaz
    • , Laura Maria Sanz
    • , Jennifer Riley
    • , Rajshekhar Basak
    • , Michael Campbell
    • , Vicky M. Avery
    • , Robert W. Sauerwein
    • , Koen J. Dechering
    • , Rintis Noviyanti
    • , Brice Campo
    • , Julie A. Frearson
    • , Iñigo Angulo-Barturen
    • , Santiago Ferrer-Bazaga
    • , Francisco Javier Gamo
    • , Paul G. Wyatt
    • , Didier Leroy
    • , Peter Siegl
    • , Michael J. Delves
    • , Dennis E. Kyle
    • , Sergio Wittlin
    • , Jutta Marfurt
    • , Ric N. Price
    • , Robert E. Sinden
    • , Elizabeth A. Winzeler
    • , Susan A. Charman
    • , Lidiya Bebrevska
    • , David W. Gray
    • , Simon Campbell
    • , Alan H. Fairlamb
    • , Paul A. Willis
    • , Julian C. Rayner
    • , David A. Fidock
    • , Kevin D. Read
    •  &  Ian H. Gilbert
  • Nature | Letter

    Saccharomyces cerevisiae is engineered to produce high concentrations of artemisinic acid, a precursor of the artemisinin used in combination therapies for malaria treatment; an efficient and practical chemical process to convert artemisinic acid to artemisinin is also developed.

    • C. J. Paddon
    • , P. J. Westfall
    • , D. J. Pitera
    • , K. Benjamin
    • , K. Fisher
    • , D. McPhee
    • , M. D. Leavell
    • , A. Tai
    • , A. Main
    • , D. Eng
    • , D. R. Polichuk
    • , K. H. Teoh
    • , D. W. Reed
    • , T. Treynor
    • , J. Lenihan
    • , H. Jiang
    • , M. Fleck
    • , S. Bajad
    • , G. Dang
    • , D. Dengrove
    • , D. Diola
    • , G. Dorin
    • , K. W. Ellens
    • , S. Fickes
    • , J. Galazzo
    • , S. P. Gaucher
    • , T. Geistlinger
    • , R. Henry
    • , M. Hepp
    • , T. Horning
    • , T. Iqbal
    • , L. Kizer
    • , B. Lieu
    • , D. Melis
    • , N. Moss
    • , R. Regentin
    • , S. Secrest
    • , H. Tsuruta
    • , R. Vazquez
    • , L. F. Westblade
    • , L. Xu
    • , M. Yu
    • , Y. Zhang
    • , L. Zhao
    • , J. Lievense
    • , P. S. Covello
    • , J. D. Keasling
    • , K. K. Reiling
    • , N. S. Renninger
    •  &  J. D. Newman
  • Nature Genetics | Article

    Dominic Kwiatkowski and colleagues report a large multicenter genome-wide association study of Plasmodium falciparum resistance to artemisinin. They identify markers of a genetic background on which kelch13 mutations conferring artemisinin resistance are likely to emerge.

    • Olivo Miotto
    • , Roberto Amato
    • , Elizabeth A Ashley
    • , Bronwyn MacInnis
    • , Jacob Almagro-Garcia
    • , Chanaki Amaratunga
    • , Pharath Lim
    • , Daniel Mead
    • , Samuel O Oyola
    • , Mehul Dhorda
    • , Mallika Imwong
    • , Charles Woodrow
    • , Magnus Manske
    • , Jim Stalker
    • , Eleanor Drury
    • , Susana Campino
    • , Lucas Amenga-Etego
    • , Thuy-Nhien Nguyen Thanh
    • , Hien Tinh Tran
    • , Pascal Ringwald
    • , Delia Bethell
    • , Francois Nosten
    • , Aung Pyae Phyo
    • , Sasithon Pukrittayakamee
    • , Kesinee Chotivanich
    • , Char Meng Chuor
    • , Chea Nguon
    • , Seila Suon
    • , Sokunthea Sreng
    • , Paul N Newton
    • , Mayfong Mayxay
    • , Maniphone Khanthavong
    • , Bouasy Hongvanthong
    • , Ye Htut
    • , Kay Thwe Han
    • , Myat Phone Kyaw
    • , Md Abul Faiz
    • , Caterina I Fanello
    • , Marie Onyamboko
    • , Olugbenga A Mokuolu
    • , Christopher G Jacob
    • , Shannon Takala-Harrison
    • , Christopher V Plowe
    • , Nicholas P Day
    • , Arjen M Dondorp
    • , Chris C A Spencer
    • , Gilean McVean
    • , Rick M Fairhurst
    • , Nicholas J White
    •  &  Dominic P Kwiatkowski