The Proximal Convoluted Tubule, or PCT, plays a pivotal role in the body's filtration system. They are primarily responsible for reabsorbing solutes and water from the filtered fluid produced by the glomeruli. Most of the filtered water, ions, and organic solutes such as glucose and amino acids are reabsorbed by the PCT.

Transport mechanisms involving sodium ions (Na⁺) contribute significantly to solute reabsorption. These mechanisms include symport and antiport processes.

A key example is the Na⁺-glucose symporter located on the apical membrane of PCT cells. This protein transports two Na⁺ ions and one glucose molecule from the tubular fluid into the tubule cell. Glucose molecules then exit the tubule cells via facilitated diffusion into the peritubular capillaries, while Na⁺ exits through the sodium-potassium pump (Na⁺/K⁺ ATPase) on the basolateral membrane.

Other Na⁺ symporters reabsorb filtered ions, amino acids, and lactic acid in similar ways. In contrast, the Na⁺-H⁺ antiporters transport filtered Na⁺ into a PCT cell while moving H⁺ from the cytosol into the lumen. This process ensures Na+ reabsorption into the blood and H⁺ secretion into the tubular fluid. The conversion of carbon dioxide to hydrogen and bicarbonate ions inside the cells maintains a steady supply of hydrogen ions.

Solute reabsorption in the proximal convoluted tubule (PCT), primarily driven by active Na⁺ transport, creates an osmotic gradient that promotes rapid water movement from the tubular fluid into the peritubular capillaries, restoring osmotic balance. As water leaves the tubular fluid, the concentrations of remaining solutes, such as Cl⁻ and urea, increase, facilitating their passive diffusion into peritubular capillaries. Additionally, ions like K⁺, Ca²⁺, and Mg²⁺are reabsorbed mainly through paracellular pathways driven by electrochemical gradients established by Na⁺ and Cl^- reabsorption.

Urea and ammonia, both filtered at the glomerulus and secreted by PCT cells into the tubular fluid, play an essential role in the filtration process. As a result, the PCT's function contributes significantly to maintaining the body's complex filtration and reabsorption mechanisms.