A photo-clickable ATP-mimetic reveals nucleotide interactors in the membrane proteome Journal Article

   


Authors: Jelcic, M.; Wang, K.; Hui, K. L.; Cai, X. C.; Enyedi, B.; Luo, M.; Niethammer, P.
Article Title: A photo-clickable ATP-mimetic reveals nucleotide interactors in the membrane proteome
Abstract: ATP is an important energy metabolite and allosteric signal in health and disease. ATP-interacting proteins, such as P2 receptors, control inflammation, cell death, migration, and wound healing. However, identification of allosteric ATP sites remains challenging, and our current inventory of ATP-controlled pathways is likely incomplete. Here, we develop and verify mipATP as a minimally invasive photoaffinity probe for ATP-interacting proteins. Its N6 functionalization allows target enrichment by UV crosslinking and conjugation to reporter tags by “click” chemistry. The additions are compact, allowing mipATP to completely retain the calcium signaling responses of native ATP in vitro and in vivo. mipATP specifically enriched for known nucleotide binders in A549 cell lysates and membrane fractions. In addition, it retrieved unannotated ATP interactors, such as the FAS receptor, CD44, and various SLC transporters. Thus, mipATP is a promising tool to identify allosteric ATP sites in the proteome. © 2020 Elsevier Ltd Jelcic et al. developed and verified a minimally invasive photoaffinity ATP (mipATP) probe that retains the signaling functions of native ATP in vivo and in vitro and provide proof-of-principle that mipATP can be used to map ATP-protein interaction space using proteomic screens. © 2020 Elsevier Ltd
Keywords: photoaffinity labeling; calcium signaling; quantitative proteomics; chemical proteomics; atp; target discovery; atp photoaffinity probe; purinergic signaling
Journal Title: Cell Chemical Biology
Volume: 27
Issue: 8
ISSN: 2451-9456
Publisher: Cell Press  
Date Published: 2020-08-20
Start Page: 1073
End Page: 1083.e12
Language: English
DOI: 10.1016/j.chembiol.2020.05.010
PUBMED: 32521230
PROVIDER: scopus
PMCID: PMC7552919
DOI/URL:

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85086910986&doi=10.1016%2fj.chembiol.2020.05.010&partnerID=40&md5=66801d02207c1d8b91f241574ff5c0a3
Notes: Article -- Export Date: 1 September 2020 -- Source: Scopus
Altmetric
What is Altmetric?
Citation Impact
What is Dimensions Citation Badge?
BMJ Impact Analytics
MSK Authors
  1. Minkui Luo
    70 Luo
  2. Philipp M Niethammer
    34 Niethammer
  3. Mark Joseph Jelcic
    8 Jelcic
  4. Xiaochuan Cai
    4 Cai
  5. Ke Wang
    6 Wang
  6. King Lam Hui
    6 Hui
Related MSK Work