The birth of new neurons and their incorporation into functional circuits in the
adult brain is a characteristic of many vertebrate and invertebrate organisms, including
decapod crustaceans. Precursor cells maintaining life-long proliferation in the brains of
crayfish (Procambarus clarkii, Cherax destructor) and clawed lobsters
(Homarus americanus) reside within a specialized niche on the ventral
surface of the brain; their daughters migrate to two proliferation zones along a stream
formed by processes of the niche precursors. Here they divide again, finally producing
interneurons in the olfactory pathway. The present studies in P. clarkii
explore (1) differential proliferative activity among the niche precursor cells with
growth and aging, (2) morphological characteristics of cells in the niche and migratory
streams, and (3) aspects of the cell cycle in this lineage. Morphologically symmetrical
divisions of neuronal precursor cells were observed in the niche near where the migratory
streams emerge, as well as in the streams and proliferation zones. The nuclei of migrating
cells elongate and undergo shape changes consistent with nucleokinetic movement. LIS1, a
highly conserved dynein-binding protein, is expressed in cells in the migratory stream and
neurogenic niche, implicating this protein in the translocation of crustacean brain
neuronal precursor cells. Symmetrical divisions of the niche precursors and migration of
both daughters raised the question of how the niche precursor pool is replenished. We
present here preliminary evidence for an association between vascular cells and the niche
precursors, which may relate to the life-long growth and maintenance of the crustacean
neurogenic niche.
Heparin is an intracellular product of vertebrate mast cell currently used as exogenous anticoagulant. Despite of the potent biological activities of exogenous heparin, its physiological function has not been clearly established yet. Here, a heparin with similar structure and anticoagulant properties to the mammalian counterpart was shown to occur as the intracellular product of test cells, a cell monolayer that surrounds egg of the invertebrate Styela plicata (Chordata-Tunicata). As in the case of mammalian mast cells, heparin from the ascidian test cells is removed from the intracellular granules after incubation with compound 48/80. Following fertilization, the test cells surrounding the developing larva still retain heparin as metachromatic granulation. In the adult invertebrate, heparin occurs as intracellular granules at the apical tip of epithelial cells surrounding the lumen of both intestine and pharynx, in close contact with the external environment. This is the first description of the presence of heparin in cytoplasmic granules of epithelial-like cells around the lumen of sites exposed to external agents. This arrangement may reflect the participation of heparin in defense mechanisms in this invertebrate.
Toxoplasmosis is one of the leading parasitic diseases worldwide. Some data suggest that chronic acquired toxoplasmosis could be linked to behavioral alterations in humans. The parasite infects neurons, forming immunologically silent cysts. Cerebral microcirculation homeostasis is determinant to brain functions, and pathologic states can alter capillarity or blood perfusion, leading to neurodegeneration and cognitive deficits. Albino mice were infected with Toxoplasma gondii (ME49 strain) and analyzed after 10, 40, and 180 days. Infected mice presented decreased cerebral blood flow at 10 and 40 days post infection (dpi), which were restored at 180 dpi, as shown by laser speckle contrast imaging. Intravital microscopy demonstrated that infection led to significant capillary rarefaction, accompanied by neuroinflammation, with microglial activation and increased numbers of rolling and adherent leukocytes to the wall of cerebral capillaries. Acetylcholine-induced vasodilation was altered at all time points, and blood brain barrier permeability was evident in infected animals at 40 dpi. Infection reduced angiogenesis, with a decreased number of isolectin B4-stained blood vessels and a decrease in length and branching of laminin-stained capillaries. Sulfadiazine reduced parasite load and partially repaired microvascular damages. We conclude that T. gondii latent infection causes a harmful insult in the brain, promoting neuroinflammation and microcirculatory dysfunction in the brain, with decreased angiogenesis and can contribute to a neurodegenerative process.
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