47,207 research outputs found

    The cytoarchitecture of the adult human parabrachial nucleus: a Nissl and Golgi study

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    The parabrachial nucleus (PBN) plays important roles in numerous autonomic functions and in pain modulation. In different animal species, three main regions of the PBN have been identified: the m-PB, the 1-PB, and the Kölliker-Fuse nucleus (KF). The KF has not been identified in humans. The present study used Nissl and Golgi-Cox material and morphoquantitative methods to investigate the cytoarchitectural organization of the adult human PBN, paying particular attention to neuronal features endowed with functional significance, i.e. the arborization of the neurons. The PBN neuron population is made up of elements which are heterogeneous in size, shape and dendritic arborization, and grouped into two regions, the lateral and medial PBN (1- and m-PB). It has been suggested that some large sized neurons located in the ventral region of the m-PB might be the counterpart of the KF. In the m-PB the fusiform neurons are the most numerous cells; in the 1-PB the multipolar neurons prevail, and are particularly numerous in the dorsal 1-PB. Since the dendritic arborization is generally the main target of afferent projections to a neuron, it is possible that the 1-PB, and in particular its dorsal region, might be the main site for the endings of afferences to the human PBN

    The cytoarchitecture of the adult human parabrachial nucleus : a Nissl and Golgi study

    No full text
    The parabrachial nucleus (PBN) plays important roles in numerous autonomic functions and in pain modulation. In different animal species, three main regions of the PBN have been identified: the m-PB, the l-PB, and the Kolliker-Fuse nucleus (KF). The KF has not been identified in humans. The present study used Nissl and Golgi-Cox material and morphoquantitative methods to investigate the cytoarchitectural organization of the adult human PBN, paying particular attention to neuronal features endowed with functional significance, i. e. the arborization of the neurons. The PBN neuron population is made up of elements which are heterogeneous in size, shape and dendritic arborization, and grouped into two regions, the lateral and medial PBN (l- and m-PB). It has been suggested that some large sized neurons located in the ventral region of the m-PB might be the counterpart of the KF. In the m-PB the fusiform neurons are the most numerous cells; in the l-PB the multipolar neurons prevail, and are particularly numerous in the dorsal l-PB. Since the dendritic arborization is generally the main target of afferent projections to a neuron, it is possible that the l-PB, and in particular its dorsal region, might be the main site for the endings of afferences to the human PBN

    Neurotoxicity of platinum compounds: comparison of the effects of cisplatinum and oxaliplatin on the human neuroblastoma cell line SH-SY5Y

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    The main dose-limiting side effect of cancer treatment with platinum compounds is peripheral neurotoxicity. To investigate the intracellular mechanisms of platinum drugs neurotoxicity we have studied the effects of cisplatin and oxaliplatin on the human neuroblastoma cell line SH-SY5Y. Both platinum compounds are toxic causing cellular death by inducing apoptosis but oxaliplatin is less neurotoxic than cisplatin. The study of the proteins involved in the intracellular transduction pathways that may cause apoptotic death, revealed a very similar pattern of changes after exposure to cisplatin or oxaliplatin. In particular, as demonstrated by densitometric analysis, after exposure to both platinum compounds the total amount of the anti-apoptotic protein Bcl-2 was significantly reduced. Conversely, the amount of the pro-apoptotic protein p53 significantly increased. Caspases 3 and 7 were activated, but their activation was a late event, indicating a secondary role in the apoptotic process. Among the mitogen activated protein kinases, only the p38 protein was activated (Phosphorylated) early enough to have a possible role in inducing apoptosis, possibly through p53 stabilization. The results of the present study and the data of the literature demonstrate that the ways in which cisplatin and oxaliplatin are neurotoxic are very similar and include not only DNA damage, but also the modulation of specific molecules involved in regulating the cellular equilibrium between apoptotic death and the cell cycle

    Autophagy in Mycobacterium tuberculosis infection: A passepartout to flush the intruder out?

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    Tuberculosis is a global health calamity. The causative agent, Mycobacterium tuberculosis (M. tuberculosis), has evolved elaborate survival mechanisms in humans, allowing it to remain in a clinically latent infection state, constantly engaging the immune system, with the possibility to progress to active disease. Autophagy is a cellular process responsible for the degradation of intracellular components, including invading pathogens, playing an important role in both innate and adaptive immunity. In this review, we describe the molecular mechanisms employed by M. tuberculosis to avoid autophagic degradation and exploit this process to its own advantage. Moreover, we discuss the multiple roles played by autophagy in the immune responses to M. tuberculosis, and its unforeseen contribution to the antibacterial activity of tuberculosis-specific drugs

    Optimization of the autophagy measurement in a human cell line and primary cells by flow cytometry

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    The limited availability of rapid and reliable flow cytometry-based assays for ex vivo quantification of autophagy has hampered their clinical applications for studies of diseases pathogenesis or for the implementation of autophagy-targeting therapies. To this aim, we modified and improved the protocol of a commercial kit developed for quantifying the microtubule-associated protein 1A/1B light chain 3B (LC3), the most reliable marker for autophagosomes currently available. The protocol modifications were set up measuring the autophagic flux in neoplastic (THP-1 cells) and primary cells (peripheral blood mononuclear cells; PBMC) of healthy donors. Moreover, PBMC of active tuberculosis (TB) patients were stimulated with the Mycobacterium tuberculosis purified protein derivatives or infected with live Mycobacterium bovis bacillus Calmette-Guerin (BCG). We found that the baseline median fluorescence intensity (MFI) of THP-1 cells changed depending on the time of sample acquisition to the flow cytometer. To solve this problem, a fixation step was introduced in different stages of the assay’s protocol, obtaining more reproducible and sensitive results when a post-LC3-staining fixation was performed, in either THP-1 cells or PBMC. Furthermore, since we found that results are influenced by the type and the dose of the lysosome inhibitor used, the best dose of Chloroquine for LC3 accumulation were set up in either THP-1 cells or PBMC. Finally, applying these experimental settings, we measured the autophagic flux in CD14+ cells from active TB patients’ PBMC upon BCG infection. In conclusion, our data indicate that the protocol modifications here described improve the stability and accura- cy of a flow cytometry-based assay for the evaluation of autophagy, thus assuring more standardised cell analyses. © the Author(s), 2019
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