Modulation of ZnT-1 by Let7a unveils a therapeutic potential in amyotrophic lateral sclerosis.

Abstract

The imbalance in cellular ionic homeostasis represents a hallmark of several neurodegenerative diseases, including Amyotrophic Lateral Sclerosis (ALS). Zinc Transporter 1 (ZnT1), the first described member of the ZnT family, stands out as the sole member of the SLC30 family responsible for exporting cytosolic zinc to the extracellular space. While ZnT1 is expressed across all tissues and cell types studied, it exhibits the highest prominence within the central nervous system. In ALS SOD1mice, a reduction in ZnT1 expression consistent with disease progression has been observed, prompting our investigation into its role in ALS pathophysiology. Remarkably, through the use of a sequence complementary to the microRNA let-7a (anti-Let-7a) able to modulate ZnT1 expression, we demonstrated in ALS mice its capability to: (1) prevent the reduction in ZnT1 levels in the spinal cord; (2) preserve motor neuron survival in the ventral spinal horn; (3) decrease astroglial and microglial activation while sparing resident microglial cells in the spinal cord; and (4) improve the lifespan and alleviate motor symptoms.