Mitochondria defects are involved in lead-acetate-induced adult hematopoietic stem cell decline

•Lead acetate exposure perturbs the hematopoietic stem cells (HSCs) function.•Exposure lead acetate to HSCs induced premature senescence or apoptosis.•HSCs senescence or apoptosis is linked with cellular mitochondrial defects.•Cellular mitochondrial defects led to increased intracellular ROS generation.

Occupational high-grade lead exposure has been reduced in recent decades as a result of increased regulation. However, environmental lead exposure remains widespread, and is associated with severe toxicity implicated in human diseases. We performed oral intragastric administration of various dose lead acetate to adult Sprague Dawley rats to define the role of lead exposure in hematopoietic stem cells (HSCs) function, and to clarify its underlying mechanism. Lead acetate-exposed rats exhibited developmental abnormalities in myeloid and lymphoid lineages, and a significant decline in immune functions. It also showed HSCs functional decline associated with senescent phenotype with low grade lead acetate exposure or apoptotic phenotype with relative higher grade dose exposure. Mechanistic exploration showed a significant increase in reactive oxygen species (ROS) in the lead acetate-exposed CD90+CD45− compartment, which correlated with functional defects in cellular mitochondria. Furthermore, in vivo treatment with the antioxidant vitamin C led to reversion of the CD90+CD45− compartment functional decline. These results indicate that lead acetate perturbs the hematopoietic balance of adult HSCs, associated with cellular mitochondria defects, increased intracellular ROS generation.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slide