Substituted benzaldehydes (12C79 and 589C80) that stabilize oxyhaemoglobin also protect sickle cells against calcium-mediated dehydration

Reversibly sickled cells from patients with homozygous sickle-cell disease were prepared by Percoll-Isopaque density gradient separation and subjected to 15 h of cyclical deoxygenation-reoxygenation in the presence of Ca. After 15 h the sickle cells became dehydrated, losing volume secondary to K efflux via the Ca-activated (Gardos) channel, and showed impaired filterability through 5 microns diameter pores. The substituted benzaldehydes 12C79 and 589C80, which stabilize the oxy-conformation of sickle haemoglobin, showed an additional protective effect at pharmacological concentration by maintaining the K concentration, mean cell volume, and deformability of sickle cells. Drugs that increase the oxygen affinity of sickle haemoglobin may be more effective than specific inhibitors of Ca entry or K efflux in preserving the cation homeostasis and deformability of sickle cells during sickling in vivo.