Adherence of eosinophilic granulocytes from patients with onchocerciasis to microfilariae (Mf), third (L3) and fourth (L4) stage larvae of Onchocerca volvulus was studied in vitro. Native and heat-inactivated sera from patients with onchocerciasis (OS), from endemic controls without signs of the disease (ECS), from healthy Caucasians (NS) or foetal calf serum (FCS) served as sources for adherence mediating factors. In FCS-supplemented medium eosinophils did not adhere to any larvae. None of the sera mediated the adherence of eosinophils to L4. Eosinophils adhered to L3 in the presence of OS, ECS and NS, whereas OS exclusively mediated adherence to Mf. Reduced adherence rates of eosinophils to L3 occurred in heat-inactivated or zymosan-activated OS, ECS or CS. Eosinophils bound to the L3 cuticle of moulting stage but not to the newly exposed L4 cuticle. A single adherent layer of effector cells was found around cast L3 cuticle, multiple layers were found around intact L3 leading to subsequent paralysis of the larvae and to an amplification of the toxic effector potential by homotypic intereosinophilic adhesion. Our experiments document heterogeneity of in vitro effector cell adherence to the three larval stages of O. volvulus and indicate that complement-dependent as well as independent mechanisms are operative in eosinophil-larval-interaction. The results emphasize the importance of the invading infective larval stages of O. volvulus as possible targets for vaccine production.
Transmission electron microscopic investigation of the morphogenesis of Onchocerca volvulus through the third moult to the post-infective stage revealed essential alterations in various larval organs. Complete rebuilding of surface structures, the reduction of secretory granules in the glandular oesophagus, the unfolding of the intestine, an increase in the number of nerve fibres in the nerve ring and novel sensory papillae were significant findings. Transition from third- to fourth-stage larvae (L4) started as early as 48 h after transfer to vertebrate conditions in vivo in surrogate hosts and in vitro. After a resting period of about 60 h to enable a reduction in gland size and the loosening of the old cuticle and formation of the new one, the larvae started to cast the infective-stage cuticle. Young L4 exhibited a thin, monolayered cuticle and did not rebuild a glandular oesophagus. The body cavity widened, the intestine unfolded and the increased number of microvilli indicated the resumption of metabolic activity.
A detailed morphological investigation of the anterior sensory organs, the nerve ring and a glomerulus-like structure in male Onchocerca volvulus was performed by means of electron microscopy. The 8 head papillae are arranged in the common 4 + 4 pattern of most filarial worms in circles around the mouth opening. The amphidial openings are found between the circles of inner and outer papillae on both sides of the mouth. Inside, several additional nerve axons are seen in the tissue of the anterior tip not related to one of the identified papillar structures. The inner and outer papillae exhibit a remarkably different fine structure, and are part of a complex system of at least 2 different receptor cell types at the anterior tip of the worm. The amphidial channel contains 8 modified cilia; accessory axons are associated with the cytoplasm of the sheath cell. The anterior nerve ring of male worms is located about 150 micrometers posterior from the outermost tip of the head region. It consists of several fibres coiled around the oesophagus. The comparison of the fine structure of the central nervous system did not show the expected morphological differences associated with the heterogeneous age distribution in the natural worm population. This was in contrast to previous findings with respect to tissues in different parts of the worm. The study also provides the first evidence that suggests the existence of an excretory organ in a filarial worm in the region of the anterior nerve ring. Paired glomerulus-like structures in the lateral chords and a canal formed by a projection of the basal zone of the cuticles were identified.
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