Toxicology Reports (Jan 2022)

A proteomic study to unveil lead toxicity-induced memory impairments invoked by synaptic dysregulation

  • Nivedha Mohanraj,
  • Neha S. Joshi,
  • Roshni Poulose,
  • Rahul R. Patil,
  • Rashmi Santhoshkumar,
  • Anubhav Kumar,
  • Girish P. Waghmare,
  • Amit Kumar Saha,
  • Syeda Zehra Haider,
  • Yogananda S. Markandeya,
  • Gourav Dey,
  • Laxmi T. Rao,
  • Periyasamy Govindaraj,
  • Bhupesh Mehta

Journal volume & issue
Vol. 9
pp. 1501 – 1513

Abstract

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Lead (Pb2+), a ubiquitously present heavy metal toxin, has various detrimental effects on memory and cognition. However, the molecular processes affected by Pb2+ causing structural and functional anomalies are still unclear. To explore this, we employed behavioral and proteomic approaches using rat pups exposed to lead acetate through maternal lactation from postnatal day 0 (P0) until weaning. Behavioral results from three-month-old rats clearly emphasized the early life Pb2+ exposure induced impairments in spatial cognition. Further, proteomic analysis of synaptosomal fractions revealed differential alteration of 289 proteins, which shows functional significance in elucidating Pb2+ induced physiological changes. Focusing on the association of Small Ubiquitin-like MOdifier (SUMO), a post-translational modification, with Pb2+ induced cognitive abnormalities, we identified 45 key SUMO target proteins. The significant downregulation of SUMO target proteins such as metabotropic glutamate receptor 3 (GRM3), glutamate receptor isoforms 2 and 3 (GRIA 2 and GRIA3) and flotilin-1 (FLOT1) indicates SUMOylation at the synapses could contribute to and drive Pb2+ induced physiological imbalance. These findings identify SUMOylation as a vital protein modifier with potential roles in hippocampal memory consolidation and regulation of cognition. Data availbility: The mass spectrometry proteomics data have been deposited to the ProteomeXchange Consortium via the PRIDE partner repository with the dataset identifier PXD034212".

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