Nature Communications (Apr 2024)

Identifying therapeutic targets for cancer among 2074 circulating proteins and risk of nine cancers

  • Karl Smith-Byrne,
  • Åsa Hedman,
  • Marios Dimitriou,
  • Trishna Desai,
  • Alexandr V. Sokolov,
  • Helgi B. Schioth,
  • Mine Koprulu,
  • Maik Pietzner,
  • Claudia Langenberg,
  • Joshua Atkins,
  • Ricardo Cortez Penha,
  • James McKay,
  • Paul Brennan,
  • Sirui Zhou,
  • Brent J. Richards,
  • James Yarmolinsky,
  • Richard M. Martin,
  • Joana Borlido,
  • Xinmeng J. Mu,
  • Adam Butterworth,
  • Xia Shen,
  • Jim Wilson,
  • Themistocles L. Assimes,
  • Rayjean J. Hung,
  • Christopher Amos,
  • Mark Purdue,
  • Nathaniel Rothman,
  • Stephen Chanock,
  • Ruth C. Travis,
  • Mattias Johansson,
  • Anders Mälarstig

DOI
https://doi.org/10.1038/s41467-024-46834-3
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 11

Abstract

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Abstract Circulating proteins can reveal key pathways to cancer and identify therapeutic targets for cancer prevention. We investigate 2,074 circulating proteins and risk of nine common cancers (bladder, breast, endometrium, head and neck, lung, ovary, pancreas, kidney, and malignant non-melanoma) using cis protein Mendelian randomisation and colocalization. We conduct additional analyses to identify adverse side-effects of altering risk proteins and map cancer risk proteins to drug targets. Here we find 40 proteins associated with common cancers, such as PLAUR and risk of breast cancer [odds ratio per standard deviation increment: 2.27, 1.88-2.74], and with high-mortality cancers, such as CTRB1 and pancreatic cancer [0.79, 0.73-0.85]. We also identify potential adverse effects of protein-altering interventions to reduce cancer risk, such as hypertension. Additionally, we report 18 proteins associated with cancer risk that map to existing drugs and 15 that are not currently under clinical investigation. In sum, we identify protein-cancer links that improve our understanding of cancer aetiology. We also demonstrate that the wider consequence of any protein-altering intervention on well-being and morbidity is required to interpret any utility of proteins as potential future targets for therapeutic prevention.