Binding Affinity and Capacity for the Uremic Toxin Indoxyl Sulfate

Abstract: Protein binding prevents uremic toxins from removal by conventional extracorporeal therapies leading to accumulation in maintenance dialysis patients. Weakening of the protein binding may enhance the dialytic elimination of these toxins. In ultrafiltration and equilibrium dialysis experiments, different measures to modify the plasma binding affinity and capacity were tested: (i), increasing the sodium chloride (NaCl) concentration to achieve a higher ionic strength; (ii), increasing the temperature; and (iii),… Show more

“…Consequently, uremic toxins have been identified as a relevant cause of cardiovascular mortality in CKD patients . Under physiologic conditions, these compounds are eliminated by the kidney through the urine . Nevertheless, CKD patients have a compromised renal clearance; therefore, these solutes tend to accumulate in the organs.…”

“…Sudlow et al proposed that HSA has two specific drug binding sites, site I and site II, which are assigned to subdomains IIA and IIIA, respectively . Most of the circulating uremic toxins are found to interact with both binding sites Sudlow I and II, which are located in the subdomains IIA and IIIA, via electrostatic and/or van der Waals forces (binding affinity) . However, fatty acids seem to be the main endogenous ligand of HSA (approximately 0.1–2.0 moles of fatty acids per mole of protein), and multiple binding sites are used for monounsaturated fatty acids (MUFAs) and polyunsaturated fatty acids (PUFAs) .…”

A possible link between polyunsaturated fatty acids and uremic toxins from the gut microbiota in hemodialysis patients: A hypothesis

“…Consequently, uremic toxins have been identified as a relevant cause of cardiovascular mortality in CKD patients . Under physiologic conditions, these compounds are eliminated by the kidney through the urine . Nevertheless, CKD patients have a compromised renal clearance; therefore, these solutes tend to accumulate in the organs.…”

“…Sudlow et al proposed that HSA has two specific drug binding sites, site I and site II, which are assigned to subdomains IIA and IIIA, respectively . Most of the circulating uremic toxins are found to interact with both binding sites Sudlow I and II, which are located in the subdomains IIA and IIIA, via electrostatic and/or van der Waals forces (binding affinity) . However, fatty acids seem to be the main endogenous ligand of HSA (approximately 0.1–2.0 moles of fatty acids per mole of protein), and multiple binding sites are used for monounsaturated fatty acids (MUFAs) and polyunsaturated fatty acids (PUFAs) .…”

A possible link between polyunsaturated fatty acids and uremic toxins from the gut microbiota in hemodialysis patients: A hypothesis

“…Two protein metabolites in particular, indoxyl sulphate (IS; a tryptophan derivative) and p ‐cresyl sulphate (a derivative of tyrosine and phenylalanine), have become readily studied due to their inability to be removed by dialysis, and their associations with CKD progression and cardiovascular disease . Both toxins competitively bind to Sudlow's site II (subdomain IIIA) on the albumin molecule through electrostatic and Van der Waals forces . The scope of the present review is to characterize the causes, consequences and potential therapeutic manipulation of serum IS accumulation in patients with CKD.…”

Indoxyl sulphate and kidney disease: Causes, consequences and interventions

“…The potential approach for this propose, including increasing ionic strength using sodium chloride, increasing temperature from room to body temperature and dilution, has been demonstrated to decrease the protein-bound fraction and increase the free fraction of IS, thereby likely contributing to better removal during dialysis. 23,127 Kidney Transplantation Successful kidney transplantation has shown benefits on survival, 128 preventing progression of CKD, recovery of cardiac function 129 and regression of cardiac fibrosis. 15 Study demonstrating such outcomes in relation to reduced levels of problematic non-dialyzable PBUTs is extremely rare in post-kidney transplantation patients.…”

Role of Gut-Derived Protein-Bound Uremic Toxins in Cardiorenal Syndrome and Potential Treatment Modalities