Herbicide paraquat induces sex-specific variation of neuroinflammation and neurodegeneration in Drosophila melanogaster.

There are several reports on herbicide paraquat (PQ)-induced Parkinsonian-like pathology in different animal models, including Drosophila melanogaster. Also, the role of some inflammatory factors, such as nitric oxide is reported in PQ-induced neuroinflammation of Drosophila. Although invertebrate model is valuable to study the conserved inflammatory pathway at the time of neurodegeneration, but neuroinflammation during PQ-mediated neurodegeneration has not been studied explicitly in Drosophila. In this study, the inflammatory response was examined in Drosophila model during PQ-induced neurodegeneration. We found that after exposure to PQ, survivability and locomotion ability were affected in both sexes of Drosophila. Behavioural symptoms indicated similar physiological features of Parkinson’s disease (PD) in different animal models, as well as in humans. Our study revealed alteration in proinflamatory factor, TNF-α and Eiger (the Drosophila homologue in TNF superfamily) was changed in PQ-treated Drosophila both at protein and mRNA level during neurodegeneration. To ensure the occurrence of neurodegeneration, tyrosine hydroxylase (TH) positive neuronal cell loss was considered as a hallmark of PD in the fly brain. Thus, our result revealed the conserved inflammatory events in terms of expression of TNF-α and Eiger present during a sublethal dose of PQ-administered neurodegeneration in male and female Drosophila with significant variation in proinflamatory factor level among both the sexes.

Neuroglobina: nuevo miembro de la familia de las globinas / Neuroglobin: a novel member of the globin family

Durante mucho tiempo se asumió que la hemoglobina y la mioglobina eran las únicas globinas de los vertebrados. En el año 2000 se descubrió un tercer tipo de globina, que sobre la base de su ubicación preferencial en el sistema nervioso fue denominada neuroglobina. Aunque aún se desconoce su función específica, se han planteado varias hipótesis entre las que se destaca la que sugiere que puede destoxificar las especies reactivas del oxígeno y el nitrógeno. Otros estudios proponen que es parte de una cadena de transducción de señales que transmite el estado redox de la célula o que inhibe la apoptosis. Aunque algunas funciones son más probables que otras, aún no se ha establecido definitivamente cuál es la función fisiológica de la neuroglobina en los vertebrados. No obstante, no hay dudas de que esta globina tiene una función esencial, conservada y que es beneficiosa para las neuronas

For a long time, it was taken for granted that hemoglobin and mioglobin were the only vertebrate globins. In 2000, a third type of globins was discovered on the basis of its preferential location in the nervous system and it was called neuroglobin. Although its specific function is still unknown, a number of hypotheses has been put forward, mainly the one suggesting that it may detoxify the reactive oxygen species and the nitrogen. On the other hand, other studies state that neuroglobin is part of a signal transduction chain that transmits the redox state of the cell or inhibits apoptosis. Though some functions are more probable than others, the real physiological function of neuroglobin in vertebrae has not been finally established. Nevertheless, this globin has undoubtedly an essential preserved function that is useful for neurons

Neonatal handling and the expression of immunoreactivity to tyrosine hydroxylase in the hypothalamus of adult male rats

Neonatal handling has long-lasting effects on behavior and stress reactivity. The purpose of the present study was to investigate the effect of neonatal handling on the number of dopaminergic neurons in the hypothalamic nuclei of adult male rats as part of a series of studies that could explain the long-lasting effects of neonatal stimulation. Two groups of Wistar rats were studied: nonhandled (pups were left undisturbed, control) and handled (pups were handled for 1 min once a day during the first 10 days of life). At 75-80 days, the males were anesthetized and the brains were processed for immunohistochemistry. An anti-tyrosine hydroxylase antibody and the avidin-biotin-peroxidase method were used. Tyrosine hydroxylase-immunoreactive (TH-IR) neurons were counted bilaterally in the arcuate, paraventricular and periventricular nuclei of the hypothalamus in 30-æm sections at 120-æm intervals. Neonatal handling did not change the number of TH-IR neurons in the arcuate (1021 + or - 206, N = 6; 1020 + or - 150, N = 6; nonhandled and handled, respectively), paraventricular (584 + or - 85, N = 8; 682 + or - 62, N = 9) or periventricular (743 + or - 118, N = 7; 990 + or - 158, N = 7) nuclei of the hypothalamus. The absence of an effect on the number of dopaminergic cells in the hypothalamus indicates that the reduction in the amount of neurons induced by neonatal handling, as shown by other studies, is not a general phenomenon in the brain