Abstract
We study the kinetics of eosinophils during the development of the cellular infiltrate surrounding the nurse cell of Trichinella spiralis (T. spiralis) in experimentally infected mice. Male CD1 mice were experimentally infected with 50 viable muscle larvae of the MSUS/MEX/91/CM-91 T. spiralis strain. Tongues and diaphragms were obtained daily from days 13 to 39 post infection. Diaphragms were compressed and subjected to Giemsa stain. Tongues were histologically sectioned and stained with erythrosine B or hematoxylin and eosin. The cellular infiltrate and the nurse cell-larva complex were detected by optical microscopy since day 16 post infection. The size of the larva increased exponentially during the course of the infection. The kinetics of eosinophils showed a multimodal trend, with a bimodal predominance. The maximum peaks were reached on days 21 and 27 post infection. The results of this study demonstrate that eosinophils occur abundantly in two transcendent moments of the T. spiralis life cycle: first, when the stage 1 larva invades the myocyte and second when the nurse cell-larva complex has been fully developed. These results help one to understand the immunobiology of T. spiralis, highlighting the importance of eosinophils in the survival of the larva in skeletal muscle. Further studies are needed to characterize the cell populations that comprise the cellular infiltrate during the development of the mother cell.
Highlights
Trichinella spiralis is a zoonotic parasite that infects a wide range of mammalian hosts
T. spiralis muscle larvae infect exclusively striated muscle cells, transforming them into “nurse cells”, where larvae stay for many years
Many authors have already reported the process of nurse cell formation [2,3,4,5], but there is scarce information about the characterization of the cell populations that constitute the cellular infiltrate
Summary
Trichinella spiralis is a zoonotic parasite that infects a wide range of mammalian hosts. This nematode is unusual in two ways that have significance for the host immune response. T. spiralis muscle larvae infect exclusively striated muscle cells, transforming them into “nurse cells”, where larvae stay for many years. The nurse cell quickly surrounds itself with a cellular infiltrate associated with antigens from the muscle larvae. Many authors have already reported the process of nurse cell formation [2,3,4,5], but there is scarce information about the characterization of the cell populations that constitute the cellular infiltrate. Eosinophils are one of the main populations taking part in the helminth infection, the kinetics of development of the cellular infiltrate surrounding a nurse cell of T. spiralis are unknown
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