SLC4A2

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The SLC4A2 Gene: A Guardian of Acid-Base Balance

Description

The SLC4A2 gene, located on chromosome 4, encodes the anion exchanger 2 (AE2) protein. This protein is responsible for transporting bicarbonate ions (HCO3-) and chloride ions (Cl-) across cell membranes, maintaining acid-base balance in various tissues, including the kidneys, red blood cells, and central nervous system.

Associated Diseases

Mutations in the SLC4A2 gene have been linked to several diseases:

• Band 3 deficiency: This condition results in the absence or reduction of AE2 on red blood cells, leading to anemia, weakness, and jaundice.
• Proximal renal tubular acidosis: This disorder causes the kidneys to lose HCO3-, resulting in acidic urine and abnormalities in blood pH.
• Nephrolithiasis: Mutations in SLC4A2 can increase the risk of kidney stone formation by altering mineral transport in the kidneys.
• Central nervous system disorders: Animal studies suggest that SLC4A2 is involved in learning, memory, and neuronal development. Mutations in the gene may contribute to neurological diseases such as autism and schizophrenia.

Did you Know ?

Approximately 1 in 1000 people worldwide carry a mutation in the SLC4A2 gene. The prevalence is higher in certain populations, such as those of African descent.