Malaria-associated adhesion molecule activation facilitates the destruction of uninfected red blood cells.
Jill Jasmine DalimotThomas R L KleiBoukje M BeugerZeynep DikmenSuzan A M BouwmanGhyslain Mombo-NgomaRella Zoleko-ManegoWilfrid Nzebe NdoumbaStéphane EgéeTaco W KuijpersMartin P GrobuschRobin van BruggenPublished in: Blood advances (2022)
Severe malarial anemia (SMA) is the main cause of malaria-associated infant mortality in malaria endemic countries. One major factor that contributes to SMA is the accumulation of uninfected red blood cells (uRBCs) in the spleen. We report the activation of adhesion molecules Lutheran/basal cell adhesion molecule (Lu/BCAM) and CD44 on uRBCs from Plasmodium falciparum in vitro cultures and patients with malaria that mediates adherence to the splenic extracellular matrix (ECM) components laminin-α5 and hyaluronic acid (HA), respectively. This tight ECM-adhesion molecule interaction was associated with elevated intracellular Ca2+ levels, increased shedding of microvesicles, and Lu/BCAM clustering on altered uRBCs. Moreover, we observed that a soluble parasite-derived factor promoted the adhesive phenotype of uRBCs, as the incubation of RBCs with filtered malaria-conditioned medium reproduced the same adhesive effect in malaria culture-derived uRBCs. Eventually, Lu/BCAM and CD44 activation facilitate the adherence to ECM components of the red pulp, resulting in the enhanced splenic retention of uRBCs. Our results suggest a novel adhesion molecule-dependent mechanism that augments malaria-induced anemia.
Keyphrases
- plasmodium falciparum
- extracellular matrix
- red blood cell
- cell adhesion
- hyaluronic acid
- biofilm formation
- magnetic resonance imaging
- computed tomography
- cardiovascular disease
- staphylococcus aureus
- oxidative stress
- early onset
- adipose tissue
- single cell
- metabolic syndrome
- coronary artery disease
- risk factors
- magnetic resonance
- glycemic control
- skeletal muscle
- rna seq
- escherichia coli
- candida albicans
- toxoplasma gondii