A retinal model of cerebral malaria.
François Paquet-DurandSusanne C BeckSoumyaparna DasGesine Hubernull Le ChangTimm SchubertNaoyuki TanimotoMarina Garcia-GarridoRegine MühlfriedelSylvia BolzWolfgang HoffmannUlrich SchraermeyerBenjamin MordmüllerMathias W SeeligerPublished in: Scientific reports (2019)
Malaria is a causative factor in about 500.000 deaths each year world-wide. Cerebral malaria is a particularly severe complication of this disease and thus associated with an exceedingly high mortality. Malaria retinopathy is an ocular manifestation often associated with cerebral malaria, and presumably shares a substantial part of its pathophysiology. Here, we describe that indeed murine malaria retinopathy reproduced the main hallmarks of the corresponding human disease. In the living animal, we were able to follow the circulation and cellular localization of malaria parasites transgenically labelled with GFP via non-invasive in vivo retinal imaging. We found that malaria parasites cross the blood-retinal-barrier and infiltrate the neuroretina, concomitant with an extensive, irreversible, and long-lasting retinal neurodegeneration. Furthermore, anti-malarial treatment with dihydroartemisinin strongly diminished the load of circulating parasites but resolved the symptoms of the retinopathy only in part. In summary, we introduce here a novel preclinical model for human cerebral malaria that is much more directly accessible for studies into disease pathophysiology and development of novel treatment approaches. In vivo retinal imaging may furthermore serve as a valuable tool for the early diagnosis of the human disease.
Keyphrases
- plasmodium falciparum
- optical coherence tomography
- diabetic retinopathy
- endothelial cells
- optic nerve
- high resolution
- induced pluripotent stem cells
- depressive symptoms
- bone marrow
- coronary artery disease
- physical activity
- combination therapy
- cardiovascular events
- blood brain barrier
- sleep quality
- replacement therapy