Skip to main page content
U.S. flag

An official website of the United States government

Dot gov

The .gov means it’s official.
Federal government websites often end in .gov or .mil. Before sharing sensitive information, make sure you’re on a federal government site.

Https

The site is secure.
The https:// ensures that you are connecting to the official website and that any information you provide is encrypted and transmitted securely.

Access keys NCBI Homepage MyNCBI Homepage Main Content Main Navigation
. 2024 Oct;59(10):e5090.
doi: 10.1002/jms.5090.

Investigating Anion Effects on Metal Ion Binding Interactions With Amyloid β Peptide by Ion Mobility Mass Spectrometry

Jingwei Zhang  1 Ashley Phetsanthad  1 Lingjun Li  1   2
Affiliations

Investigating Anion Effects on Metal Ion Binding Interactions With Amyloid β Peptide by Ion Mobility Mass Spectrometry

Jingwei Zhang et al. J Mass Spectrom. 2024 Oct.

Abstract

The study of metal ion's role in the biological processes of Alzheimer's disease has spurred investigations into the coordination chemistry of amyloid beta peptide and its fragments. Nano-electrospray ionization mass spectrometry (nESI-MS) has been utilized to examine the stabilization of bound anions on multiprotein complexes without bulk solvent. However, the effects of anions on metal ion binding interactions with amyloid beta peptide have not been explored. This study directly examined metal-peptide complexes using nESI-MS and investigated the effects of various anions on the binding ratio and stability of these complexes from ammonium salt solutions. The results indicate that different anions have distinct effects on the binding ratio and stability of various metal-peptide complexes. Of these, the bicarbonate ion exhibits the highest binding ratios for metal-peptide complexes, while binding ratios for these complexes in phosphate are comparatively low. Our results suggest that acetate, formate, bicarbonate, and phosphate have weak affinities and act as weak stabilizers of the metal-peptide complex structure in the gas phase. Intriguingly, chloride and sulfate act as stabilizers of the metal-peptide complex in the gas phase. The rank order determined from these data is substantially different from the Hofmeister salt series in solution. Although this outcome was anticipated due to the reduced influence of anions and water solvation, our findings correlate well with expected anion binding in solution and emphasize the importance of both hydration layer and anion-metal-peptide binding effects for Hofmeister-type stabilization in solution. This approach proved useful in examining the interactions between metal ions and amyloid beta peptide, which are relevant to Alzheimer's disease, using direct ESI-MS.

Keywords: amyloid‐β; anion; electrospray ionization; ion mobility; mass spectrometry.

PubMed Disclaimer

Conflict of interest statement

CONFLICT OF INTEREST

The authors have no conflict of interests to declare.

Similar articles

See all similar articles

Cited by

References

    1. Zhang Y & Cremer PS Interactions between macromolecules and ions: the Hofmeister series. Curr Opin Chem Biol 10, 658–663 (2006). - PubMed
    1. Nostro PL & Ninham BW Hofmeister Phenomena: An Update on Ion Specificity in Biology. Chem Rev 112, 2286–2322 (2012). - PubMed
    1. Roberts D et al. Specific Ion and Buffer Effects on Protein–Protein Interactions of a Monoclonal Antibody. Mol Pharmaceut 12, 179–193 (2015). - PubMed
    1. Okur HI et al. Beyond the Hofmeister Series: Ion-Specific Effects on Proteins and Their Biological Functions. J Phys Chem B 121, 1997–2014 (2017). - PubMed
    1. Weingärtner H, Cabrele C & Herrmann C How ionic liquids can help to stabilize native proteins. Phys Chem Chem Phys 14, 415–426 (2011). - PubMed

MeSH terms

LinkOut - more resources