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2022 ◽  
Vol 20 (1) ◽  
Author(s):  
Tiziana Petrozziello ◽  
Francesca Boscia ◽  
Valentina Tedeschi ◽  
Anna Pannaccione ◽  
Valeria de Rosa ◽  
...  

Abstract Background The cycad neurotoxin beta-methylamino-l-alanine (L-BMAA), one of the environmental trigger factor for amyotrophic lateral sclerosis/Parkinson-dementia complex (ALS/PDC), may cause neurodegeneration by disrupting organellar Ca2+ homeostasis. Through the activation of Akt/ERK1/2 pathway, the Cu,Zn-superoxide dismutase (SOD1) and its non-metallated form, ApoSOD1, prevent endoplasmic reticulum (ER) stress-induced cell death in motor neurons exposed to L-BMAA. This occurs through the rapid increase of intracellular Ca2+ concentration ([Ca2+]i) in part flowing from the extracellular compartment and in part released from ER. However, the molecular components of this mechanism remain uncharacterized. Methods By an integrated approach consisting on the use of siRNA strategy, Western blotting, confocal double- labeling immunofluorescence, patch-clamp electrophysiology, and Fura 2-/SBFI-single-cell imaging, we explored in rat motor neuron-enriched cultures the involvement of the plasma membrane proteins Na+/Ca2+ exchanger (NCX) and purinergic P2X7 receptor as well as that of the intracellular cADP-ribose (cADPR) pathway, in the neuroprotective mechanism of SOD1. Results We showed that SOD1-induced [Ca2+]i rise was prevented neither by A430879, a P2X7 receptor specific antagonist or 8-bromo-cADPR, a cell permeant antagonist of cADP-ribose, but only by the pan inhibitor of NCX, CB-DMB. The same occurred for the ApoSOD1. Confocal double labeling immunofluorescence showed a huge expression of plasmalemmal NCX1 and intracellular NCX3 isoforms. Furthermore, we identified NCX1 reverse mode as the main mechanism responsible for the neuroprotective ER Ca2+ refilling elicited by SOD1 and ApoSOD1 through which they promoted translocation of active Akt in the nuclei of a subset of primary motor neurons. Finally, the activation of NCX1 by the specific agonist CN-PYB2 protected motor neurons from L-BMAA-induced cell death, mimicking the effect of SOD1. Conclusion Collectively, our data indicate that SOD1 and ApoSOD1 exert their neuroprotective effect by modulating ER Ca2+ content through the activation of NCX1 reverse mode and Akt nuclear translocation in a subset of primary motor neurons.


2022 ◽  
pp. 221-250
Author(s):  
Paula G. Vissio ◽  
Daniela I. Pérez Sirkin ◽  
María P. Di Yorio
Keyword(s):  

2021 ◽  
Author(s):  
Alena Gschwind ◽  
Christian Marx ◽  
Marie D. Just ◽  
Paula Severin ◽  
Hannah Behring ◽  
...  

Abstract BackgroundAutophagy plays an essential role in maintaining cellular homeostasis and in the response to cellular stress. Autophagy is also involved in cell cycle progression, yet the relationship between these processes is not clearly defined.ResultsIn exploring this relationship, we observed that the inhibition of autophagy impaired the G2/M phase-arresting activity of etoposide but enhanced the G1 phase-arresting activity of palbociclib. We further investigated the connection of basal autophagy and cell cycle by utilizing the autophagosome tracer dye Cyto-ID in two ways. First, we established a double-labeling flow-cytometric procedure with Cyto-ID and the DNA probe DRAQ5, permitting the cell cycle phase-specific determination of autophagy in live cells. This approach demonstrated that different cell cycle phases were associated with different autophagy levels: G1 phase cells had the lowest one and G2/M phase cells had the highest one. Second, we developed a flow-cytometric cell sorting procedure based on Cyto-ID that separates cell populations into fractions with low, medium and high autophagy. Cell cycle analysis of Cyto-ID-sorted cells confirmed that the high autophagy fraction contained a much higher percentage of G2/M phase cells than the low autophagy fraction. Beyond that, Cyto-ID-based cell sorting proved also to be useful for assessing other autophagy-related processes: extracellular flux analysis revealed metabolic differences between the cell populations, with higher autophagy being associated with higher respiration, higher mitochondrial ATP production and higher glycolysis.ConclusionThis work sheds new light on the interrelation of autophagy and cell cycle by establishing a novel cell sorting technique based on Cyto-ID.


2021 ◽  
pp. 147-161
Author(s):  
Monika Rak ◽  
Krzysztof Reiss
Keyword(s):  

2021 ◽  
Vol 21 (1) ◽  
Author(s):  
Natalia Padilla-Gálvez ◽  
Paola Luengo-Uribe ◽  
Sandra Mancilla ◽  
Amandine Maurin ◽  
Claudia Torres ◽  
...  

Abstract Background The native potatoes (Solanum tuberosum subsp. tuberosum L.) grown in Chile (Chiloé) represent a new, unexplored source of endophytes to find potential biological control agents for the prevention of bacterial diseases, like blackleg and soft rot, in potato crops. Result The objective of this study was the selection of endophytic actinobacteria from native potatoes for antagonistic activity against Pectobacterium carotovorum subsp. carotovorum and Pectobacterium atrosepticum, and their potential to suppress tissue maceration symptoms in potato tubers. This potential was determined through the quorum quenching activity using a Chromobacterium violaceaum ATCC 12472 Wild type (WT) bioassay and its colonization behavior of the potato plant root system (S. tuberosum) by means of the Double labeling of oligonucleotide probes for fluorescence in situ hybridization (DOPE-FISH) targeting technique. The results showed that although Streptomyces sp. TP199 and Streptomyces sp. A2R31 were able to inhibit the growth of the pathogens, only the Streptomyces sp. TP199 isolate inhibited Pectobacterium sp. growth and diminished tissue maceration in tubers (p ≤ 0.05). Streptomyces sp. TP199 had metal-dependent acyl homoserine lactones (AHL) quorum quenching activity in vitro and was able to colonize the root endosphere 10 days after inoculation. Conclusions We concluded that native potatoes from southern Chile possess endophyte actinobacteria that are potential agents for the disease management of soft rot and blackleg.


2021 ◽  
Vol 12 ◽  
Author(s):  
Gabriel G. Fernandes ◽  
Karla C. M. Costa ◽  
Davi S. Scomparin ◽  
Juliana B. Freire ◽  
Francisco S. Guimarães ◽  
...  

Inducible nitric oxide synthase (iNOS) is an enzyme upregulated in the brain during neuroimmune stimuli which is associated with an oxidative and pro-inflammatory environment in several brain regions, including the hippocampal formation and the prefrontal cortex. The dentate gyrus of the hippocampal formation is the site of a process known as adult hippocampal neurogenesis (AHN). Although many endogenous and extrinsic factors can modulate AHN, the exact participation of specific proinflammatory mediators such as iNOS in these processes remains to be fully elucidated. Here, we investigated how the total genetic ablation of iNOS impacts the hippocampal neurogenic niche and microglial phenotype and if these changes are correlated to the behavioral alterations observed in iNOS knockout (K.O.) mice submitted or not to the chronic unpredictable stress model (CUS - 21 days protocol). Contrary to our initial hypothesis, at control conditions, iNOS K.O. mice displayed no abnormalities on microglial activation in the dentate gyrus. However, they did exhibit impaired newborn cells and immature neuron survival, which was not affected by CUS. The reduction of AHN in iNOS K.O. mice was accompanied by an increased positive coping response in the tail suspension test and facilitation of anxiety-like behaviors in the novelty suppressed feeding. Next, we investigated whether a pro-neurogenic stimulus would rescue the neurogenic capacity of iNOS K.O. mice by administering in control and CUS groups the antidepressant escitalopram (ESC). The chronic treatment with ESC could not rescue the neurogenic capacity or the behavioral changes observed in iNOS K.O. mice. Besides, in the ventromedial prefrontal (vmPFC) cortex there was no change in the expression or the chronic activation of PV neurons (evaluated by double labeling PV with FOSB) in the prelimbic (PrL) or infralimbic subregions. FOSB expression, however, increased in the PrL of iNOS K.O. mice. Our results suggest that iNOS seems essential for the survival of newborn cells and immature neurons in the hippocampus and seem to partially explain the anxiogenic-like behavior observed in iNOS K.O. mice. On the other hand, the iNOS ablation appears to result in increased activity of the PrL which could explain the antidepressant-like behaviors of iNOS K.O mice.


2021 ◽  
Author(s):  
Guo-Xian Pei ◽  
Liu Yang ◽  
Junqin Li ◽  
Bin Liu ◽  
Hao Wu ◽  
...  

Abstract BackgroundGiven the afferent functions, sensors have been found exerting efferent influences and directly alter organ physiology. Sensory nerves have been found critical in osteoclasts and bone resorption. However, the direct evidence of whether sensory nerve efferent influences osteoclast, remains lacking. MethodsWe treated mice with resiniferatoxin (RTX) or complete Freund’s adjuvant (CFA) to induce sensory hypersensitivity. Bone histomorphometry including micro-ct, three-point bending assay, von kossa staining, calcein double labeling, toluidine blue staining, and trap staining were performed to monitor bone quality and bone cells. Multiple virus vectors were applied to trace signals between sensory nerves and osteoclasts. Sensory neurons (SN) and osteoclasts were cocultured to study the effects and mechanisms of the sensory nerves on osteoclasts in vitro. Isobaric tag for relative and absolute quantitation (iTRAQ) was used to identify secreted proteins in the sensory nerve. ResultsHere, we found sensory hypersensitivity significantly increased osteoclast bone resorption; SN directly promote osteoclastogenesis in vitro; and abundant sensory efferent signals transported into osteoclasts. Then our screening identified a novel neuropeptide Peptidyl-prolyl cis-trans isomerase D (Cyp40), is the reverse signal from the sensory nerve and plays a critical role for osteoclastogenesis, via aryl hydrocarbon receptor (AhR)-Ras/Raf-pErk-NFATc1 pathway. The efferent signals from sensory nerves tend to involves in the rapid feedback process: vast majority of sensory efferent signals (87.28%) present in fast-twitch myofibers. ConclusionThis study revealed a novel mechanism of sensory nerves on osteoclasts: the direct promotion of osteoclastogenesis by the Cyp40. This mechanism may represent a direct, and quick response of sensory nerves to the changes in bone. Targeting the Cyp40 could therefore be a strategy to promote bone repair at the early stage of bone injury.


2021 ◽  
pp. 030098582110572
Author(s):  
Kazuhiro Kojima ◽  
James K. Chambers ◽  
Ko Nakashima ◽  
Yuko Goto-Koshino ◽  
Kazuyuki Uchida

Human enteropathy-associated T-cell lymphoma (EATL) is considered to be derived from intraepithelial lymphocytes (IELs); however, the origin of canine intestinal T-cell lymphoma (ITCL) remains unclear. Histological, immunohistochemical, and clonality examinations were performed using endoscopically collected canine duodenum samples of mucosal lesions of chronic enteropathy (CE; 73 cases) and ITCL without transmural neoplastic mass lesions (64 cases). Histopathological examinations revealed the intraepithelial accumulation of lymphocytes (called “intraepithelial lymphocytosis”) in 54/73 CE cases (74%) and the epitheliotropism of neoplastic lymphocytes in 63/64 ITCL cases (98%). Immunohistochemically, IELs in CE with intraepithelial lymphocytosis (IEL+CE) were diffusely immunopositive for CD3, with scattered immunopositivity for CD5, CD8, CD20, and granzyme B (GRB). The percentage of CD8+ in CD3+ IELs was significantly lower in IEL+CE than in CE without intraepithelial lymphocytosis (IEL−CE). Double-labeling immunohistochemistry revealed a high percentage of GRB expression in CD8− IEL among IEL+CE. Among 64 ITCL cases, CD3 was immunopositive in 64 (100%), CD5 in 22 (34%), CD8 in 8 (13%), CD20 in 12 (19%), CD30 in 13 (20%), and GRB in 49 (77%). In CD3+ cells, Ki67 immunopositivity was highest in ITCL, intermediate in IEL+CE, and lower in IEL−CE. A clonal TCR gene rearrangement was detected in 1/19 IEL−CE cases (5%), 15/54 IEL+CE (28%), and 38/58 ITCL (66%). These results indicate that the immunophenotype of canine ITCL (CD8−GRB+) is similar to that of the increased IELs in CE. The high proliferative activity and clonality of T cells in IEL+CE suggest that canine ITCL originates from these IELs, similar to human EATL.


2021 ◽  
Author(s):  
Wentao Yu ◽  
Lei Kang ◽  
Victor T. C. Tsang ◽  
Yan Zhang ◽  
Ivy H. M. Wong ◽  
...  

Rapid multicolor three-dimensional (3D) imaging for centimeter-scale specimens with subcellular resolution remains a challenging but captivating scientific pursuit. Here, we present a fast, automated, cost-effective, and versatile multicolor 3D imaging method with ultraviolet (UV) surface excitation and vibratomy-assisted sectioning, termed translational rapid ultraviolet-excited sectioning tomography (TRUST). TRUST enables exogenous molecular-specific fluorescence and endogenous content-rich autofluorescence imaging simultaneously with the help of a UV light-emitting diode and a color camera. Commonly applied tissue preparation procedures (e.g., staining or clearing) are laborious, time-consuming, and may induce detrimental effects on processed samples. In TRUST, formalin-fixed specimens are stained with real-time double labeling layer by layer along with serial widefield optical illumination with raster scanning and mechanical sectioning to improve the staining speed and reveal rich biological information. All vital organs in mice have been imaged by TRUST to demonstrate its fast, robust, and high-content multicolor 3D imaging ability. Moreover, its potential for developmental biology has also been validated by imaging entire mouse embryos (taking ~2 days for imaging the embryo at the embryonic day of 15). TRUST offers a way for multicontrast and multicolor whole-organ 3D imaging with high resolution and high speed while relieving researchers from heavy sample preparation workload.


Blood ◽  
2021 ◽  
Vol 138 (Supplement 1) ◽  
pp. 944-944
Author(s):  
Flávia Peixoto Albuquerque ◽  
Ingrid Grazielle Sousa ◽  
Bruno Batista Souza ◽  
Jersey Heitor da S Maués ◽  
Carolina Lanaro ◽  
...  

Abstract Patients with homozygous beta thalassemia and the β⁰β⁰ genotype produce almost only fetal hemoglobin and a small proportion of hemoglobin A2. However, in the bone marrow of these patients there are descriptions of two different subpopulations of erythroblasts, one with high production of HbF (High HbF cells) and another with low production of HbF (Low HbF cells). The High F cells are probably those that survive through erythropoiesis and originate the viable red blood cells. The molecular mechanisms that are responsible for this high production of HbF are not clear. Therefore, the central aim of our work was to study, in cultures of CD34⁺ cells from β⁰β⁰ patients, differentiated to erythrocytes in vitro, the molecular characteristics of cells related to high production of HbF (High HbF), compared to those with low production of HbF (Low HbF). For this purpose, peripheral blood was collected from patients and CD34⁺ cells were identified, and further differentiated in vitro and then isolated by flow cytometry (FACS Aria). After separating the High HbF and Low HbF groups, the cells were morphologically evaluated by optical and confocal microscopy and image cytometry. Next RNA was extracted from the pool of isolated cells and the RNA sequencing assay (RNAseq) was performed, so that it was possible to analyze the transcripts that were differentially expressed between each of the groups. Finally, we validated the sequencing data by real-time PCR. The sorting was performed on the 10th day of cell culture, when the cells presented a double labeling profile for anti-transferrin (CD71) and anti-glycophorin (CD235) antibodies, the mean intensity and fluorescence (MIF) of the markers was 1058 and 1365 for CD71 in healthy control and β-thalassemia groups, respectively, and for CD235 was 430 in controls and 516 for patients. The cells were in an intermediate stage of maturation. After the isolation of sub-populations of High HbF and Low HbF cells, confocal microscopy indicated a clear difference in the intracellular HbF levels of the analyzed cells, confirming that the sorting by cytometry had occurred as desired. Imaging cytometry analysis revealed a MIF of 7.8 x 10⁵ for High HbF cells and 1.7 x 10⁵ for Low HbF cells, when we assessed the cell pools and when single cells were studied, these values ranged from 2.2 x 10⁵ for Low HbF cells to 1.9 x 10⁶ of mean intensity and fluorescence for High cells. After all data generated by RNAseq were filtered, we obtained a list of 16 enriched and differentially-expressed genes between High HbF and Low HbF cells. From these genes, it was possible to identify two that were apparently associated with the increased production of fetal hemoglobin, the genes ZBTB8B and LIN28B. ZBTB8B is a protein-coding gene with a zinc finger domain and may be involved in transcriptional regulation, it was included in our analyses since this gene is part of the same family as ZBTB7A, an important transcription factor that represses several genes involved in cell differentiation and proliferation and that has already been described as a regulator of HbF production. The LIN28B gene encodes an RNA-binding protein, which is described as a possible regulator of HbF levels during fetal development, by increasing the expression of gamma globin, culminating in the increase of intracellular levels of fetal hemoglobin through a direct action on the let-7 microRNA family and BCL11A gene.These results not only contribute to a better understanding of the mechanisms of gene regulation involved in the production of HbF, but indicate a potential new therapeutic approach to increase the production of HbF in hemoglobinopathies. Disclosures Costa: Novartis: Consultancy.


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