Your search keyword '"Lovisolo D"' showing total 614 results

51. A calcium-permeable channel activated by muscarinic acetylcholine receptors and InsP3 in developing chick ciliary ganglion neurons.

Author

Distasi C, Di Gregorio F, Gilardino A, and Lovisolo D

Subjects

Animals, Carbachol pharmacology, Cells, Cultured, Chick Embryo, Evoked Potentials drug effects, Ganglia, Parasympathetic embryology, Membrane Potentials, Muscarine pharmacology, Neurons drug effects, Neurons metabolism, Patch-Clamp Techniques, Calcium Channels drug effects, Calcium Channels metabolism, Ganglia, Parasympathetic drug effects, Ganglia, Parasympathetic metabolism, Inositol 1,4,5-Trisphosphate pharmacology, Receptors, Muscarinic metabolism

Abstract

The electrical responses elicited by the muscarinic cholinergic pathway have been studied in cultured embryonic chick ciliary ganglion (CG) neurons. Neurons obtained from E7-E8 ganglia were maintained in serum-free medium for 1 to 3 days. Stimulation with 50 microM muscarine induced depolarizing responses in about 30% of the cells tested. In voltage clamp experiments at a holding potential of -50 mV, an inward current could be recorded in the same percentage of cells in response to muscarinic stimulation. In single channel experiments, with standard physiological solution in the pipette, muscarine transiently activated an inward conducting channel. Cell-attached recordings with 100 mM CaCl(2) in the pipette provided evidence that muscarinic agonists can activate a cationic calcium-permeable channel. Two main conductance levels could be detected, of 2.3+/-0.6 and 5.6+/-0.6 pS, respectively. In excised patches, addition of 5-20 microM inositol 1,4,5-trisphosphate (InsP(3)) to the bath reactivated a channel that could be blocked by heparin and whose characteristics were very similar to those of the channel seen in response to muscarinic stimulation. A channel with similar properties has been previously shown to be activated by basic fibroblast growth factor (bFGF) and InsP(3) in the same preparation.

Published

2002

52. Expression and functional role of bTRPC1 channels in native endothelial cells.

Author

Antoniotti S, Lovisolo D, Fiorio Pla A, and Munaron L

Subjects

Alternative Splicing, Animals, Antibodies pharmacology, Antibody Specificity, Calcium metabolism, Calcium Channels genetics, Cattle, Cell Compartmentation physiology, Cell Line, Cell Membrane metabolism, Endothelium, Vascular cytology, Endothelium, Vascular drug effects, Fibroblast Growth Factor 2 pharmacology, Immunohistochemistry, Ion Channels genetics, Ion Transport drug effects, Membrane Potentials drug effects, Patch-Clamp Techniques, RNA, Messenger metabolism, Reverse Transcriptase Polymerase Chain Reaction, TRPC Cation Channels, Calcium Channels metabolism, Endothelium, Vascular metabolism

Abstract

We have analyzed the expression and localization of bovine transient receptor potential-C1 (bTRPC1) in bovine aortic endothelial cells, and its possible involvement in the store-independent calcium influx induced by basic fibroblast growth factor (bFGF). RT-PCR experiments confirmed the existence of two btrpc1 mRNA isoforms; conversely, the btrpc3 gene was not transcribed. Anti-TRPC1 antibody revealed the presence of the protein in the membrane-rich compartment only. Application of anti-TRPC1 during the response to bFGF caused a partial but significant reduction of calcium entry. This is the first evidence of TRP channel involvement in a non-capacitative calcium influx induced by a biologically relevant agonist such as the angiogenic factor bFGF in native endothelial cells.

Published

2002

53. IGF-I enhances survival of embryonic chick ciliary ganglion neurons in a calcium-dependent way.

Author

Barale E, Torre M, Haimann C, and Lovisolo D

Subjects

Animals, Calcium metabolism, Calcium Channel Blockers pharmacology, Cell Survival drug effects, Cells, Cultured, Chelating Agents pharmacology, Chick Embryo, Culture Media, Ganglia, Parasympathetic drug effects, Immunohistochemistry, Laminin biosynthesis, Neurons drug effects, Calcium physiology, Ganglia, Parasympathetic cytology, Insulin-Like Growth Factor I pharmacology, Neurons physiology

Abstract

We have shown that neurons from embryonic chick ciliary ganglia in primary culture possess receptors for insulin-like growth factor I (IGF-I). When added to serum- and insulin-free culture medium, the factor potently enhanced neuronal survival as observed after 24 and 48 h of culture. The effect saturated at 5 ng/ml. Laminin was not necessary for the trophic effects of IGF-I; in the absence of the factor, it had no effect on neuronal survival. Insulin exerted a trophic effect similar to that observed with IGF-I, but at higher doses. The trophic effect of IGF-I was sharply and specifically reduced when either a membrane-permeable calcium chelating agent or blockers of voltage-dependent calcium channels were added to the medium.

Published

1998

54. Neuronal survival and calcium influx induced by basic fibroblast growth factor in chick ciliary ganglion neurons.

Author

Distasi C, Torre M, Antoniotti S, Munaron L, and Lovisolo D

Subjects

Animals, Calcium Channels drug effects, Cations metabolism, Cell Survival drug effects, Cell Survival physiology, Chick Embryo, Electric Conductivity, Electrophysiology, Ganglia, Parasympathetic cytology, Ganglia, Parasympathetic embryology, Inositol 1,4,5-Trisphosphate pharmacology, Intracellular Membranes metabolism, Neurons drug effects, Calcium metabolism, Fibroblast Growth Factor 2 pharmacology, Ganglia, Parasympathetic metabolism, Neurons physiology

Abstract

Basic fibroblast growth factor (bFGF/FGF2) exhibits widespread biological activities in the nervous system. However, little is known about the cascade of intracellular events that links the activation of its tyrosine kinase receptors to these effects. Here we report that, in ciliary ganglion neurons from chick embryo, this trophic factor significantly enhanced neuronal survival. The percentage of surviving neurons was reduced when intracellular calcium was chelated by adding a membrane-permeable BAPTA ester to the culture medium, while antagonists of L- and N-type voltage-dependent calcium channels were ineffective. The ionic signals in response to bFGF stimulation have been studied using cytofluorimetric and patch-clamp techniques. In single-cell Fura-2 measurements, bFGF elicited a long lasting rise of the cytosolic calcium concentration that was dependent on [Ca2+]o. In whole-cell experiments, we observed a reversible depolarization of the membrane resting potential and an inward cationic current. Single channel experiments, performed in the cell-attached configuration, provide evidence for the activation of two families of Ca2+-permeable cationic channels. Moreover, inositol 1,4,5-trisphosphate opens channels with similar properties, suggesting that this cytosolic messenger can be responsible for the calcium influx induced by bFGF.

Published

1998

55. Arachidonic acid mediates calcium influx induced by basic fibroblast growth factor in Balb-c 3T3 fibroblasts.

Author

Munaron L, Antoniotti S, Distasi C, and Lovisolo D

Subjects

3T3 Cells, 5,8,11,14-Eicosatetraynoic Acid metabolism, Analysis of Variance, Animals, Calcium-Calmodulin-Dependent Protein Kinases metabolism, Fluorometry, Mice, Patch-Clamp Techniques, Phospholipases A metabolism, Phospholipases A2, Receptors, Fibroblast Growth Factor metabolism, Arachidonic Acids metabolism, Calcium metabolism, Calcium Channels physiology, Fibroblast Growth Factor 2 metabolism, Signal Transduction physiology

Abstract

Basic fibroblast growth factor (bFGF), a peptide acting as a mitogen in different cell types, is able to induce a long lasting non capacitative calcium influx from the extracellular medium in Balb-c 3T3 mouse fibroblasts. This effect is mediated by the tyrosine kinase activity of bFGF receptors and the opening of voltage independent, agonist activated calcium channels. In this paper we investigate the signal transduction steps involved in this process using single cell calcium fluorimetry and electrophysiological techniques. One of the pathways initiated by the binding of growth factors to their tyrosine kinase receptors is the activation of cytosolic phospholipase A2 (cPLA2) and the release of arachidonic acid (AA) from the plasma membrane with the subsequent production of eicosanoids. We show here that, in our preparation, this pathway is involved in the opening of the bFGF-activated calcium permeable channels, through the activation of mitogen activated protein kinase (MAPK) and cPLA2. Evidence for direct involvement of AA is given by the finding that: (i) bFGF induces AA release from Balb-c 3T3 cells; (ii) blockers of AA metabolism are not effective; and (iii) the application of either arachidonic acid or its non metabolizable analogue 5,8,11,14-eicosatetraynoic acid (ETYA) reproduces the responses described for bFGF. Finally, single channel analysis indicates that bFGF, AA and ETYA can activate the same calcium permeable channel.

Published

1997

56. Basic fibroblast growth factor opens calcium-permeable channels in quail mesencephalic neural crest neurons.

Author

Distasi C, Munaron L, Laezza F, and Lovisolo D

Subjects

Animals, Cells, Cultured, Mesencephalon cytology, Neural Crest cytology, Neurons metabolism, Neurons physiology, Patch-Clamp Techniques, Quail embryology, Calcium Channels drug effects, Fibroblast Growth Factor 2 pharmacology, Mesencephalon embryology, Neural Crest metabolism

Abstract

In order to investigate the action of basic fibroblast growth factor (bFGF) in the nervous system, we have studied the ionic signals elicited by this peptide in cultured quail mesencephalic neural crest neurons using patch-clamp and cytofluorimetric techniques. In this preparation stimulation with bFGF induced, with a delay of some tens of seconds, an inward cationic current. Single-channel experiments provided evidence for the activation of a calcium-permeable channel. In single-cell cytofluorimetric measurements, a sustained rise in [Ca2+]i was observed, which was dependent on the presence of external calcium. These events may play a role in the developmental effects of bFGF.

Published

1995

57. Potassium and calcium currents activated by foetal calf serum in Balb-c 3T3 fibroblasts.

Author

Lovisolo D, Munaron L, Baccino FM, and Bonelli G

Subjects

Animals, Calcium metabolism, Calcium pharmacology, Electric Conductivity, Kinetics, Mice, Mice, Inbred BALB C, Sodium metabolism, 3T3 Cells physiology, Calcium Channels physiology, Potassium Channels physiology

Abstract

In quiescent Balb-c mouse 3T3 fibroblasts, the application of whole or dialyzed 10% foetal calf serum elicits a biphasic electrical response, consisting of a transient outward current, flowing through Ca(2+)-activated K+ channels, followed by an inward one, lasting up to 15 min. On the basis of experiments with ion substitutions and blockers, the inward current can be attributed to the opening of cationic channels permeable to Na+ and Ca2+ ions. This current could mediate the calcium influx involved in the sustained elevation of [Ca2+]i that has been observed in many preparations in response to mitogen stimulation and that is involved in triggering cell proliferation.

Published

1992

58. Two currents activated by epidermal growth factor in EGFR-T17 fibroblasts.

Author

Lovisolo D, Bonelli G, Baccino FM, Peres A, Alonzo F, and Munaron L

Subjects

3T3 Cells, Animals, Calcium metabolism, Cells, Cultured, Kinetics, Membrane Potentials, Mice, Epidermal Growth Factor metabolism, ErbB Receptors metabolism, Fibroblasts metabolism, Potassium Channels metabolism

Abstract

Application of 10 nM Epidermal Growth Factor (EGF) to single EGFR-T17 fibroblasts induced a marked hyperpolarization that could last for tens of minutes; in many cases the first transient was followed by a series of oscillations of the membrane potential. The outward current responsible for the hyperpolarizing response could be recorded simultaneously to an increase in the intracellular calcium concentration, as measured with the fluorescent indicator fura-2. The conductance was nearly linear in the voltage range from -100 to +50 mV. While the EGF-induced current had many characteristics of a K+ current and was strongly reduced by 50 nM charybdotoxin (ChTx), its reversal potential was apparently more negative than the potassium equilibrium potential (VK). The application of 2 microM ouabain prior to EGF stimulation produced responses that were similar to those obtained without ouabain; however, under these conditions the EGF-induced current showed a reversal potential of -96.6 +/- 3.2 mV, very close to VK. Simultaneous application of both 2 microM ouabain and 50 nM ChTx completely abolished the response. It can be concluded that the response to EGF stimulation in EGFR-T17 cells consists of two components: the first is a current carried through Ca(2+)-activated K+ channels; the second is due to the acceleration of the operation of the Na+/K(+)-ATPase.

Published

1992

59. Ionic channels in 3T3 cell membranes

Author

ALLOATTI, G, primary, BACCINO, F, additional, BONELLI, G, additional, LOVISOLO, D, additional, and TESSITORE, L, additional

Published

1986

60. Study of the Synchronization and Transmission of Intracellular Signaling Oscillations in Cells Using Bispectral Analysis.

Author

Astashev, Maxim E., Serov, Dmitriy A., Tankanag, Arina V., Knyazeva, Inna V., Dorokhov, Artem A., Simakin, Alexander V., and Gudkov, Sergey V.

Subjects

FREQUENCIES of oscillating systems, LIME (Minerals), ENDOTHELIAL cells, BIOLOGICAL systems, CYTOLOGY

Abstract

Simple Summary: Fluctuations of physiological characteristics play an important role in a living organisms' normal existence and adaptation to environmental conditions. An important feature of oscillations in living systems is their ability to form (synchronization) or break links (desynchronization) with each other. For example, synchronization/desynchronization in the brain's electrical activity plays a role in memory and learning; synchronization changes cause epilepsy and other diseases. The task of quantifying the synchronization of signaling events in cells is currently unsolved. No universal, informative and accurate method has been found for assessing the synchronization of large cell groups. For the first time, we have tested the possibility of applying a mathematical method called bispectral analysis (applied earlier on the whole organism) to assess the coupling of signaling molecules and the level of fluctuations in cells. This method allows for a highly accurate estimation of the connection of oscillations between all pairs of cells in a studied population, the magnitude and frequency of these coupled oscillations, and which cells create and receive a "signal to form a connection of oscillations". We have shown that stress (overheating and excessive glucose concentration) changes the synchronization of oscillations of signaling molecules in cells. The obtained data can be applied in medicine and human economic activity. The oscillation synchronization analysis in biological systems will expand our knowledge about the response of living systems to changes in environmental conditions. This knowledge can be used in medicine (diagnosis, therapy, monitoring) and agriculture (increasing productivity, resistance to adverse effects). Currently, the search is underway for an informative, accurate and sensitive method for analyzing the synchronization of oscillatory processes in cell biology. It is especially pronounced in analyzing the concentration oscillations of intracellular signaling molecules in electrically nonexcitable cells. The bispectral analysis method could be applied to assess the characteristics of synchronized oscillations of intracellular mediators. We chose endothelial cells from mouse microvessels as model cells. Concentrations of well-studied calcium and nitric oxide (NO) were selected for study in control conditions and well-described stress: heating to 40 °C and hyperglycemia. The bispectral analysis allows us to accurately evaluate the proportion of synchronized cells, their synchronization degree, and the amplitude and frequency of synchronized calcium and NO oscillations. Heating to 40 °C increased cell synchronization for calcium but decreased for NO oscillations. Hyperglycemia abolished this effect. Heating to 40 °C changed the frequencies and increased the amplitudes of synchronized oscillations of calcium concentration and the NO synthesis rate. The first part of this paper describes the principles of the bispectral analysis method and equations and modifications of the method we propose. In the second part of this paper, specific examples of the application of bispectral analysis to assess the synchronization of living cells in vitro are presented. The discussion compares the capabilities of bispectral analysis with other analytical methods in this field. [ABSTRACT FROM AUTHOR]

Published

2024

61. Prenatal low-dose Bisphenol A exposure impacts cortical development via cAMP-PKA-CREB pathway in offspring.

Author

Chu Jiang, Jun Guan, Xiangrong Tang, Yichun Zhang, Xiangyu Li, Yuting Li, Zhiheng Chen, Jing Zhang, and Jia-Da Li

Subjects

PRENATAL exposure

Abstract

Bisphenol A (BPA) is a widely used plasticizer known to cause various disorders. Despite a global reduction in the use of BPA-containing products, prenatal exposure to low-dose BPA, even those below established safety limits, has been linked to neurological and behavioral deficits in childhood. The precise mechanisms underlying these effects remain unclear. In the present study, we observed a significant increase in the number of cortical neurons in offspring born to dams exposed to low-dose BPA during pregnancy. We also found that this prenatal exposure to low-dose BPA led to increased proliferation but reduced migration of cortical neurons. Transcriptomic analysis via RNA sequencing revealed an aberrant activation of the cAMP-PKA-CREB pathway in offspring exposed to BPA. The use of H89, a selective PKA inhibitor, effectively rescued the deficits in both proliferation and migration of cortical neurons. Furthermore, offspring from dams exposed to low-dose BPA exhibited manic-like behaviors, including hyperactivity, anti-depressant-like responses, and reduced anxiety. While H89 normalized hyperactivity, it didn't affect the other behavioral changes. These results suggest that the overactivation of PKA plays a causative role in BPA-induced changes in neuronal development. Our data also indicate that manic-like behaviors induced by prenatal low-dose BPA exposure may be influenced by both altered neuronal development and abnormal PKA signaling in adulthood. [ABSTRACT FROM AUTHOR]

Published

2024

62. Insulin-Activated Signaling Pathway and GLUT4 Membrane Translocation in hiPSC-Derived Cardiomyocytes.

Author

Querio, Giulia, Antoniotti, Susanna, Levi, Renzo, Fleischmann, Bernd K., Gallo, Maria Pia, and Malan, Daniela

Subjects

CELL membranes, INSULIN therapy, HEART cells, CELL analysis, CELLULAR signal transduction, INSULIN

Abstract

Human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CM) are a cell model now widely used to investigate pathophysiological features of cardiac tissue. Given the invaluable contribution hiPSC-CM could make for studies on cardio-metabolic disorders by defining a postnatal metabolic phenotype, our work herein focused on monitoring the insulin response in CM derived from the hiPSC line UKBi015-B. Western blot analysis on total cell lysates obtained from hiPSC-CM showed increased phosphorylation of both AKT and AS160 following insulin treatment, but failed to highlight any changes in the expression dynamics of the glucose transporter GLUT4. By contrast, the Western blot analysis of membrane fractions, rather than total lysates, revealed insulin-induced plasma membrane translocation of GLUT4, which is known to also occur in postnatal CM. Thus, these findings suggest that hiPSC-derived CMs exhibit an insulin response reminiscent to that of adult CMs regarding intracellular signaling and GLUT4 translocation to the plasma membrane, representing a suitable cellular model in the cardio-metabolic research field. Moreover, our studies also demonstrate the relevance of analyzing membrane fractions rather than total lysates in order to monitor GLUT4 dynamics in response to metabolic regulators in hiPSC-CMs. [ABSTRACT FROM AUTHOR]

Published

2024

63. Alleviative effect of betaine against copper oxide nanoparticles-induced hepatotoxicity in adult male albino rats: histopathological, biochemical, and molecular studies.

Author

Hashim, Asmaa R., Bashir, Dina W., Rashad, Eman., Galal, Mona K., Rashad, Maha M., Deraz, Nasrallah M., Drweesh, Elsayed A., and El-Gharbawy, S. M.

Subjects

BETAINE, COPPER oxide, TUMOR necrosis factors, HEPATOTOXICOLOGY, HISTOPATHOLOGY, BILE ducts

Abstract

Background: Copper oxide nanoparticles (CuO-NPs) have gained interest due to their availability, efficiency, and their cost-effectiveness. Betaine is an essential methyl donor and takes part in various physiological activities inside the body; it is found to have protective and curative effects against various liver diseases. The present study aimed to evaluate the hepatotoxic effect of CuO-NPs on adult male albino rats and the ability of betaine to alleviate such hepatotoxicity. Methods: Forty adult male albino Wister rats were grouped into 4 groups (10 rats/group): group I a negative control, group II (CuO-NPs) injected with CuO-NPs intra peritoneal by insulin needle (0.5 mg/kg/day), group III (betaine + CuO-NPs) administered betaine orally by gavage needle (250 mg/kg/day 1 h before CuO-NPs) and CuO-NPs (0.5 mg/kg/day) finally, group IV (betaine) administered betaine orally by gavage needle (250 mg/kg/day) for consecutive 28 days. Blood and liver samples were gathered and processed for biochemical, molecular, histopathological, and immunohistochemical investigations. Results: Group II displayed a marked rise in alanine aminotransferase (ALT), aspartate aminotransferase (AST), and malondialdehyde (MDA) levels. Furthermore, there is an excessive upregulation of the inflammatory biomarkers interleukin1 beta (IL-1β) and tumor necrosis factor-alpha (TNF-α). On the other hand, substantial reduction in glutathione (GSH) levels and significant downregulation at glutathione peroxidase (GPx) mRNA gene expression. Regarding the histopathological deviations, there were severe congestion, dilatation and hyalinization of blood vessels, steatosis, hydropic degeneration, hepatocytic necrosis, increased binucleation, degenerated bile ducts, hyperplasia of ducts epithelial lining, and inflammatory cells infiltration. Immunohistochemically, there was a pronounced immunoreactivity toward IL-1β. Luckily, the pre-administration of betaine was able to mitigate these changes. MDA was dramatically reduced, resulting in the downregulation of IL-1β and TNF-α. Additionally, there was a considerable rise in GSH levels and an upregulation of GPx. Histopathological deviations were substantially improved as diminished dilatation, hyalinization and congestion of blood vessels, hepatocytes, and bile ducts are normal to some extent. In addition, IL-1β immunohistochemical analysis revealed marked decreased intensity. Conclusion: Betaine can effectively reduce the hepatotoxicity caused by CuO-NPs via its antioxidant properties and its ability to stimulate the cell redox system. [ABSTRACT FROM AUTHOR]

Published

2024

64. Calcium and Neural Stem Cell Proliferation.

Author

Díaz-Piña, Dafne Astrid, Rivera-Ramírez, Nayeli, García-López, Guadalupe, Díaz, Néstor Fabián, and Molina-Hernández, Anayansi

Subjects

NEURAL stem cells, CELL proliferation, CELL populations, CALCIUM, CENTRAL nervous system, INTRACELLULAR calcium, HOMEOSTASIS

Abstract

Intracellular calcium plays a pivotal role in central nervous system (CNS) development by regulating various processes such as cell proliferation, migration, differentiation, and maturation. However, understanding the involvement of calcium (Ca2+) in these processes during CNS development is challenging due to the dynamic nature of this cation and the evolving cell populations during development. While Ca2+ transient patterns have been observed in specific cell processes and molecules responsible for Ca2+ homeostasis have been identified in excitable and non-excitable cells, further research into Ca2+ dynamics and the underlying mechanisms in neural stem cells (NSCs) is required. This review focuses on molecules involved in Ca2+ entrance expressed in NSCs in vivo and in vitro, which are crucial for Ca2+ dynamics and signaling. It also discusses how these molecules might play a key role in balancing cell proliferation for self-renewal or promoting differentiation. These processes are finely regulated in a time-dependent manner throughout brain development, influenced by extrinsic and intrinsic factors that directly or indirectly modulate Ca2+ dynamics. Furthermore, this review addresses the potential implications of understanding Ca2+ dynamics in NSCs for treating neurological disorders. Despite significant progress in this field, unraveling the elements contributing to Ca2+ intracellular dynamics in cell proliferation remains a challenging puzzle that requires further investigation. [ABSTRACT FROM AUTHOR]

Published

2024

65. Effect of Titanium Dioxide Nanoparticles on Parental Oxidative Status and Offspring Skeleton Development and the Protective Role of Portulaca oleracea Seed Extract: Histological and Morphometric Study.

Author

El-Demerdash, Fatma E., Salem, Mona A., Abd El-Wahab, Samia M., Mohammed, Eman S., and Mohamed, Abir K.

Subjects

TITANIUM dioxide nanoparticles, PORTULACA oleracea, FETAL growth retardation, SUPEROXIDE dismutase, SKELETON, MALONDIALDEHYDE

Abstract

Copyright of Egyptian Journal of Histology is the property of Egyptian Journal of Histology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

66. A comprehensive review on Moringa oleifera nanoparticles: importance of polyphenols in nanoparticle synthesis, nanoparticle efficacy and their applications.

Author

Perumalsamy, Haribalan, Balusamy, Sri Renukadevi, Sukweenadhi, Johan, Nag, Sagnik, MubarakAli, Davoodbasha, El-Agamy Farh, Mohamed, Vijay, Hari, and Rahimi, Shadi

Abstract

Moringa oleifera is one of the popular functional foods that has been tremendously exploited for synthesis of a vast majority of metal nanoparticles (NPs). The diverse secondary metabolites present in this plant turn it into a green tool for synthesis of different NPs with various biological activities. In this review, we discussed different types of NPs including silver, gold, titanium oxide, iron oxide, and zinc oxide NPs produced from the extract of different parts of M. oleifera. Different parts of M. oleifera take a role as the reducing, stabilizing, capping agent, and depending on the source of extract, the color of solution changes within NP synthesis. We highlighted the role of polyphenols in the synthesis of NPs among major constituents of M. oleifera extract. The different synthesis methods that could lead to the formation of various sizes and shapes of NPs and play crucial role in biomedical application were critically discussed. We further debated the mechanism of interaction of NPs with various sizes and shapes with the cells, and further their clearance from the body. The application of NPs made from M. oleifera extract as anticancer, antimicrobial, wound healing, and water treatment agent were also discussed. Small NPs show better antimicrobial activity, while they can be easily cleared from the body through the kidney. In contrast, large NPs are taken by the mono nuclear phagocyte system (MPS) cells. In case of shape, the NPs with spherical shape penetrate into the bacteria, and show stronger antibacterial activity compared to the NPs with other shapes. Finally, this review aims to correlate the key characteristics of NPs made from M. oleifera extract, such as size and shape, to their interactions with the cells for designing and engineering them for bio-applications and especially for therapeutic purposes. [ABSTRACT FROM AUTHOR]

Published

2024

67. Genotoxic and neurotoxic potential of intracellular nanoplastics: A review.

Author

Casella C and Ballaz SJ

Subjects

Humans, Animals, DNA Damage drug effects, Microplastics toxicity, Environmental Pollutants toxicity, Neurotoxicity Syndromes pathology, Neurotoxicity Syndromes etiology, Mutagens toxicity, Oxidative Stress drug effects, Nanoparticles toxicity

Abstract

Plastic waste comprises polymers of different chemicals that disintegrate into nanoplastic particles (NPLs) of 1-100-nm size, thereby littering the environment and posing a threat to wildlife and human health. Research on NPL contamination has up to now focused on the ecotoxicology effects of the pollution rather than the health risks. This review aimed to speculate about the possible properties of carcinogenic and neurotoxic NPL as pollutants. Given their low-dimensional size and high surface size ratio, NPLs can easily penetrate biological membranes to cause functional and structural damage in cells. Once inside the cell, NPLs can interrupt the autophagy flux of cellular debris, alter proteostasis, provoke mitochondrial dysfunctions, and induce endoplasmic reticulum stress. Harmful metabolic and biological processes induced by NPLs include oxidative stress (OS), ROS generation, and pro-inflammatory reactions. Depending on the cell cycle status, NPLs may direct DNA damage, tumorigenesis, and lately carcinogenesis in tissues with high self-renewal capabilities like epithelia. In cells able to live the longest like neurons, NPLs could trigger neurodegeneration by promoting toxic proteinaceous aggregates, OS, and chronic inflammation. NPL genotoxicity and neurotoxicity are discussed based on the gathered evidence, when available, within the context of the intracellular uptake of these newcomer nanoparticles. In summary, this review explains how the risk evaluation of NPL pollution for human health may benefit from accurately monitoring NPL toxicokinetics and toxicodynamics at the intracellular resolution level., (© 2024 John Wiley & Sons Ltd.)

Published

2024

68. Adverse Effects of Non-Metallic Nanoparticles in the Central Nervous System.

Author

Sikorska, Katarzyna, Sawicki, Krzysztof, Czajka, Magdalena, Kapka-Skrzypczak, Lucyna, Kruszewski, Marcin, and Brzóska, Kamil

Subjects

NERVE tissue, NANOPARTICLES, NEURODEGENERATION, DISEASE prevalence

Abstract

The interest in nanoparticles (NPs) and their effects on living organisms has been continuously growing in the last decades. A special interest is focused on the effects of NPs on the central nervous system (CNS), which seems to be the most vulnerable to their adverse effects. Non-metallic NPs seem to be less toxic than metallic ones; thus, the application of non-metallic NPs in medicine and industry is growing very fast. Hence, a closer look at the impact of non-metallic NPs on neural tissue is necessary, especially in the context of the increasing prevalence of neurodegenerative diseases. In this review, we summarize the current knowledge of the in vitro and in vivo neurotoxicity of non-metallic NPs, as well as the mechanisms associated with negative or positive effects of non-metallic NPs on the CNS. [ABSTRACT FROM AUTHOR]

Published

2023

69. Thermostable Basic Fibroblast Growth Factor Enhances the Production and Activity of Human Wharton's Jelly Mesenchymal Stem Cell-Derived Extracellular Vesicles.

Author

Park, SangRok, Kim, SeJong, Lim, KyungMin, Shin, YeoKyung, Song, Kwonwoo, Kang, Geun-Ho, Kim, Dae Young, Shin, Hang-Cheol, and Cho, Ssang-Goo

Subjects

FIBROBLAST growth factor 2, FIBROBLAST growth factors, EXTRACELLULAR vesicles, FACTORS of production, MESENCHYMAL stem cells, CELL cycle

Abstract

Wharton's jelly-derived mesenchymal stem cell (WJ-MSC)-derived exosomes contain a diverse cargo and exhibit remarkable biological activity, rendering them suitable for regenerative and immune-modulating functions. However, the quantity of secretion is insufficient. A large body of prior work has investigated the use of various growth factors to enhance MSC-derived exosome production. In this study, we evaluated the utilization of thermostable basic fibroblast growth factor (TS-bFGF) with MSC culture and exosome production. MSCs cultured with TS-bFGF displayed superior proliferation, as evidenced by cell cycle analysis, compared with wild-type bFGF (WT-bFGF). Stemness was assessed through mRNA expression level and colony-forming unit (CFU) assays. Furthermore, nanoparticle tracking analysis (NTA) measurements revealed that MSCs cultured with TS-bFGF produced a greater quantity of exosomes, particularly under three-dimensional culture conditions. These produced exosomes demonstrated substantial anti-inflammatory and wound-healing effects, as confirmed by nitric oxide (NO) assays and scratch assays. Taken together, we demonstrate that utilization of TS-bFGF for WJ-MSC-derived exosome production not only increases exosome yield but also enhances the potential for various applications in inflammation regulation and wound healing. [ABSTRACT FROM AUTHOR]

Published

2023

70. REST Is Not Resting: REST/NRSF in Health and Disease.

Author

Jin, Lili, Liu, Ying, Wu, Yifan, Huang, Yi, and Zhang, Dianbao

Subjects

GENETIC regulation, REGULATOR genes, NEUROLOGICAL disorders, TRANSCRIPTION factors, NERVOUS system, FORKHEAD transcription factors

Abstract

Chromatin modifications play a crucial role in the regulation of gene expression. The repressor element-1 (RE1) silencing transcription factor (REST), also known as neuron-restrictive silencer factor (NRSF) and X2 box repressor (XBR), was found to regulate gene transcription by binding to chromatin and recruiting chromatin-modifying enzymes. Earlier studies revealed that REST plays an important role in the development and disease of the nervous system, mainly by repressing the transcription of neuron-specific genes. Subsequently, REST was found to be critical in other tissues, such as the heart, pancreas, skin, eye, and vascular. Dysregulation of REST was also found in nervous and non-nervous system cancers. In parallel, multiple strategies to target REST have been developed. In this paper, we provide a comprehensive summary of the research progress made over the past 28 years since the discovery of REST, encompassing both physiological and pathological aspects. These insights into the effects and mechanisms of REST contribute to an in-depth understanding of the transcriptional regulatory mechanisms of genes and their roles in the development and progression of disease, with a view to discovering potential therapeutic targets and intervention strategies for various related diseases. [ABSTRACT FROM AUTHOR]

Published

2023

71. بررسی اثر تیمروزال روی تعداد آستروسیت‌ها و بیان ژن‌های دخیل در ساختار و عملکرد سیناپس‌ها درقشر پره فرونتال موش‌های صحرایی نر.

Author

عبداله امینی and زهرا نامورپور

Published

2023

72. Spectral sensitivity of Phalangium opilio eyes.

Author

Camillo R, Lovisolo D, and Veglia F

Subjects

Animals, Darkness, Microelectrodes, Photic Stimulation, Arachnida physiology, Ocular Physiological Phenomena, Vision, Ocular physiology

Published

1981

73. Sensitivity changes and facilitation in the photoreceptor of phalangium opilio due to light adaptation. Preliminary notes.

Author

Lovisolo D and Busso C

Subjects

Animals, Models, Animal, Photic Stimulation methods, Adaptation, Ocular physiology, Arachnida physiology, Photoreceptor Cells physiology

Abstract

These preliminary notes were made on sensitivity changes and facilitation in the photoreceptor of phalangium opilio, due to light adaptation. They show that facilitation is a case opposite to light adaptation. Other measurements are planned in the progress of this work.

Published

1979

74. [Effect of (Na)e concentration on action potentials of myocardial fibers of Pseudemys].

Author

Lovisolo D and Re GG

Subjects

Action Potentials drug effects, Animals, Atrial Function, Turtles, Ventricular Function, Heart physiology, Myocardial Contraction drug effects, Sodium pharmacology

Abstract

The occurrence, in the myocardial fibers of several vertebrates, of two components, a fast and a slow one, in the depolarizing phase of the action potential, as shown by several workers, has been tested on freshwater turtle myocardium. In order to test the dependence of the fast component on external sodium concentrations, the maximum rate of depolarization and the level of the notch between the two phases were analyzed in hyposodic solutions. No dependence was found between the height of the overshoot of the action potential and [Na]e, either in atrial or in ventricular fibers. Instead, the maximum depolarization rate and the level of the notch between the two phases showed a linear dependence on the logarithm of [Na]e. These findings support the hypothesis that the fast component is sodium-dependent, while the slow one, responsible for the reaching of the overshoot peak, does not depend on [Na]e and has a more positive equilibrium potential.

Published

1977

75. The electrical response of the ocellus of Phalangium opilio.

Author

Lovisolo D, Prelato M, and Veglia F

Subjects

Action Potentials drug effects, Animals, Dark Adaptation, Nicotine pharmacology, Arachnida physiology, Photoreceptor Cells physiology

Published

1978

76. The effects of gaboon viper (Bitis gabonica) venom on voltage-clamped single heart cells.

Author

Busso C, Camino E, Cedrini L, and Lovisolo D

Subjects

Action Potentials drug effects, Animals, Guinea Pigs, Heart physiology, In Vitro Techniques, Ion Channels drug effects, Potassium metabolism, Heart drug effects, Viper Venoms toxicity

Abstract

The effects of crude B. gabonica venom on single ventricular myocytes from guinea-pig hearts were studied using the patch clamp technique in the 'whole cell' mode. Irreversible effects on the membrane currents, which became prominent within 15 min of venom application, were: (1) a decrease in the time invariant current (associated with the inward rectifying K+ current), most clearly seen over a voltage range negative to the resting membrane potential; and (2) a decrease in the peak inward current (associated with the Ca2+ current) elicited by steplike depolarizations from a holding potential of -40 mV. A transient increase in the peak inward current, which preceded its eventual decline, was also noticed; it peaked 6-10 min after the venom was applied. Application of the venom to unclamped, stimulated cells resulted in a shortening of the plateau phase and disturbances of the repolarization phase of action potentials. An early transient prolongation and elevation of the plateau was observed, occurring with the same time course of the transient increase in the peak inward current. No signs of damage to the cell membrane integrity, neither electrical (appearance of a leakage current) nor morphological (surface blebs, loss of striation pattern and of rodlike shape in the isolated myocytes), accompanied the effects observed on ionic currents and action potential activity, supporting the hypothesis of a selective cardiotoxic action of B. gabonica venom.

Published

1988

77. Potassium and calcium currents and action potentials in mouse Balb/c 3T3 fibroblasts.

Author

Lovisolo D, Alloatti G, Bonelli G, Tessitore L, and Baccino FM

Subjects

Animals, Calcium Channels physiology, Cells, Cultured, Electric Conductivity, Fibroblasts physiology, Mice, Mice, Inbred BALB C, Action Potentials, Calcium physiology, Potassium physiology

Abstract

The electrical properties of Balb/c 3T3 mouse fibroblasts were studied with the whole-cell patch clamp technique. In current clamp mode a resting potential of -75.5 +/- 2.1 mV was recorded. In voltage clamp mode an inward current was also observed at potentials negative to Vm. This current crossed the 0-current axis at a voltage near Vm, and rectified at more positive potentials; the degree of rectification was dependent on [K+]o. At potentials positive to -30 mV a transient inward current was observed, showing a peak amplitude of -193 +/- 36 pA at +10 mV; the current amplitude was dependent on voltage and [Ca2+]o, it was strongly increased by 20 mM BaCl2 and abolished by 2 microM verapamil and 1 microM nifedipine. These cells, in response to depolarizing stimuli, develop slow action potentials, probably supported by the Ca2+ current.

Published

1988

78. [Current-voltage relationships in mammal striated muscle fibers in conditions of stable equilibrium. I. Membrane conductance of K+ and Cl-].

Author

Ferroni A, Cedrini L, and Lovisolo D

Subjects

Animals, Electrophysiology, Guinea Pigs, Cell Membrane Permeability, Chlorides metabolism, Membrane Potentials, Muscles metabolism, Muscles physiology, Potassium metabolism

Published

1968

79. Pyrophosphate and ethylenediaminetetraacetate as relaxants for lower invertebrates prior to fixation.

Author

Robotti C and Lovisolo D

Subjects

Animals, Muscle Contraction drug effects, Sodium pharmacology, Staining and Labeling, Diphosphates pharmacology, Edetic Acid pharmacology, Invertebrates drug effects

Published

1972

80. [Current-voltage relationships in mammal striated muscle fibers in conditions of stable equilibrium. II. Analysis of deviations from the Goldman "constant field" theory].

Author

Lovisolo D, Ferroni A, and Cedrini L

Subjects

Animals, Chlorides metabolism, Electrophysiology, Guinea Pigs, Potassium metabolism, Cell Membrane Permeability, Membrane Potentials, Muscles physiology

Published

1968

81. [Analysis of the repolarization phase of the action potential in the mammalian striated muscle fiber].

Author

Cedrini L, Ferroni A, and Lovisolo D

Subjects

Animals, Action Potentials, Mammals, Muscles physiology

Published

1969

82. Extracellular ATP-induced calcium oscillations regulating the differentiation of osteoblasts through aerobic oxidation metabolism pathways.

Author

Gao, Xiaohang, Di, Xiaohui, Li, Jingjing, Kang, Yiting, Xie, Wenjun, Sun, Lijun, and Zhang, Jianbao

Subjects

AEROBIC metabolism, PURINERGIC receptors, CALCIUM-sensing receptors, OSCILLATIONS, OSTEOBLASTS, INTRACELLULAR calcium

Abstract

Introduction: The increase of ATP concentration in the extracellular space represents one of the effective signals that stimulate the physiological activities of cells when the bone is exposed to external mechanical stimulation such as stretching and shear stress force throughout life. However, the effects of ATP on osteoblast differentiation and related mechanisms are not well understood. Materials and Methods: In this study, the roles of extracellular ATP on osteoblast differentiation, intracellular calcium ([Ca2+]i) levels, metabolomics, and the expression of proteins related to energy metabolism were investigated. Results: Our results showed that 100 μM extracellular ATP initiated intracellular calcium ([Ca2+]i) oscillations via the calcium-sensing receptor (P2R) and promoted the differentiation of MC3T3-E1 cells. Metabolomics analysis showed that the differentiation of MC3T3-E1 cells depended on aerobic oxidation, but little glycolysis. Moreover, the differentiation of MC3T3-E1 cells and aerobic oxidation were suppressed with the inhibition of AMP-activated protein kinase (AMPK). Conclusion: These results indicate that calcium oscillations triggered by extracellular ATP can activate aerobic oxidation through AMPK-related signaling pathways and thus promote osteoblast differentiation. [ABSTRACT FROM AUTHOR]

Published

2023

83. Adaptive traffic signal control for developing countries using fused parameters derived from crowd-source data.

Author

Mishra, Sumit, Singh, Vishal, Gupta, Ankit, Bhattacharya, Devanjan, and Mudgal, Abhisek

Subjects

TRAFFIC signal control systems, TRAFFIC signs & signals, TRAFFIC engineering, DEVELOPING countries, REAL-time control, COMPUTER networks

Abstract

Advancement of mobile technologies has enabled economical collection, storage, processing, and sharing of traffic data. These data are made accessible to intended users through various application program interfaces (API) and can be used to recognize and mitigate congestion in real time. In this paper, quantitative (time of arrival) and qualitative (color-coded congestion levels) data were acquired from the Google traffic APIs. New parameters that reflect heterogeneous traffic conditions were defined and utilized for real-time control of traffic signals while maintaining the green-to-red time ratio. The proposed method utilizes a congestion-avoiding principle commonly used in computer networking. Adaptive congestion levels were observed on three different intersections of Delhi (India), in peak hours. It showed good variation, hence sensitive for the control algorithm to act efficiently. Also, simulation study establishes that proposed control algorithm decreases waiting time and congestion. The proposed method provides an economical alternative to expensive sensing and tracking technologies. [ABSTRACT FROM AUTHOR]

Published

2023

84. The Effect of CaV1.2 Inhibitor Nifedipine on Chondrogenic Differentiation of Human Bone Marrow or Menstrual Blood-Derived Mesenchymal Stem Cells and Chondrocytes.

Author

Uzieliene, Ilona, Bironaite, Daiva, Miksiunas, Rokas, Bagdonas, Edvardas, Vaiciuleviciute, Raminta, Mobasheri, Ali, and Bernotiene, Eiva

Subjects

MESENCHYMAL stem cells, CARTILAGE cells, CARTILAGE regeneration, BONE marrow, CALCIUM channels, INTRACELLULAR calcium, STROMAL cells

Abstract

Cartilage is an avascular tissue and sensitive to mechanical trauma and/or age-related degenerative processes leading to the development of osteoarthritis (OA). Therefore, it is important to investigate the mesenchymal cell-based chondrogenic regenerating mechanisms and possible their regulation. The aim of this study was to investigate the role of intracellular calcium (iCa2+) and its regulation through voltage-operated calcium channels (VOCC) on chondrogenic differentiation of mesenchymal stem/stromal cells derived from human bone marrow (BMMSCs) and menstrual blood (MenSCs) in comparison to OA chondrocytes. The level of iCa2+ was highest in chondrocytes, whereas iCa2+ store capacity was biggest in MenSCs and they proliferated better as compared to other cells. The level of CaV1.2 channels was also highest in OA chondrocytes than in other cells. CaV1.2 antagonist nifedipine slightly suppressed iCa2+, Cav1.2 and the proliferation of all cells and affected iCa2+ stores, particularly in BMMSCs. The expression of the CaV1.2 gene during 21 days of chondrogenic differentiation was highest in MenSCs, showing the weakest chondrogenic differentiation, which was stimulated by the nifedipine. The best chondrogenic differentiation potential showed BMMSCs (SOX9 and COL2A1 expression); however, purposeful iCa2+ and VOCC regulation by blockers can stimulate a chondrogenic response at least in MenSCs. [ABSTRACT FROM AUTHOR]

Published

2023

85. The Gemstone Cyborg: How Diamond Films Are Creating New Platforms for Cell Regeneration and Biointerfacing.

Author

Santos, Nádia E., Mendes, Joana C., and Braga, Susana Santos

Subjects

DIAMOND films, GEMS & precious stones, DIAMOND surfaces, CYTOCOMPATIBILITY, CYBORGS, CELL adhesion, BIOELECTRONICS

Abstract

Diamond is a promising material for the biomedical field, mainly due to its set of characteristics such as biocompatibility, strength, and electrical conductivity. Diamond can be synthesised in the laboratory by different methods, is available in the form of plates or films deposited on foreign substrates, and its morphology varies from microcrystalline diamond to ultrananocrystalline diamond. In this review, we summarise some of the most relevant studies regarding the adhesion of cells onto diamond surfaces, the consequent cell growth, and, in some very interesting cases, the differentiation of cells into neurons and oligodendrocytes. We discuss how different morphologies can affect cell adhesion and how surface termination can influence the surface hydrophilicity and consequent attachment of adherent proteins. At the end of the review, we present a brief perspective on how the results from cell adhesion and biocompatibility can make way for the use of diamond as biointerface. [ABSTRACT FROM AUTHOR]

Published

2023

86. The Molecular Heterogeneity of Store-Operated Ca 2+ Entry in Vascular Endothelial Cells: The Different roles of Orai1 and TRPC1/TRPC4 Channels in the Transition from Ca 2+ -Selective to Non-Selective Cation Currents.

Author

Moccia, Francesco, Brunetti, Valentina, Perna, Angelica, Guerra, Germano, Soda, Teresa, and Berra-Romani, Roberto

Subjects

VASCULAR endothelial cells, TRP channels, NEOVASCULARIZATION, HOMEOSTASIS, ION channels, BLOOD platelet aggregation, ENDOPLASMIC reticulum, HETEROGENEITY

Abstract

Store-operated Ca2+ entry (SOCE) is activated in response to the inositol-1,4,5-trisphosphate (InsP3)-dependent depletion of the endoplasmic reticulum (ER) Ca2+ store and represents a ubiquitous mode of Ca2+ influx. In vascular endothelial cells, SOCE regulates a plethora of functions that maintain cardiovascular homeostasis, such as angiogenesis, vascular tone, vascular permeability, platelet aggregation, and monocyte adhesion. The molecular mechanisms responsible for SOCE activation in vascular endothelial cells have engendered a long-lasting controversy. Traditionally, it has been assumed that the endothelial SOCE is mediated by two distinct ion channel signalplexes, i.e., STIM1/Orai1 and STIM1/Transient Receptor Potential Canonical 1(TRPC1)/TRPC4. However, recent evidence has shown that Orai1 can assemble with TRPC1 and TRPC4 to form a non-selective cation channel with intermediate electrophysiological features. Herein, we aim at bringing order to the distinct mechanisms that mediate endothelial SOCE in the vascular tree from multiple species (e.g., human, mouse, rat, and bovine). We propose that three distinct currents can mediate SOCE in vascular endothelial cells: (1) the Ca2+-selective Ca2+-release activated Ca2+ current (ICRAC), which is mediated by STIM1 and Orai1; (2) the store-operated non-selective current (ISOC), which is mediated by STIM1, TRPC1, and TRPC4; and (3) the moderately Ca2+-selective, ICRAC-like current, which is mediated by STIM1, TRPC1, TRPC4, and Orai1. [ABSTRACT FROM AUTHOR]

Published

2023

87. A universal method to analyze cellular internalization mechanisms via endocytosis without non-specific cross-effects.

Author

Mai Itagaki, Yoshinori Nasu, Chiaki Sugiyama, Ikuhiko Nakase, and Noriyasu Kamei

Published

2023

88. Advances in Spinal Cord Stimulation.

Author

Lam, Christopher M., Latif, Usman, Sack, Andrew, Govindan, Susheel, Sanderson, Miles, Vu, Dan T., Smith, Gabriella, Sayed, Dawood, and Khan, Talal

Subjects

SPINAL cord, COMPLEX regional pain syndromes, ARTIFICIAL skin, PAIN management

Abstract

Neuromodulation, specifically spinal cord stimulation (SCS), has become a staple of chronic pain management for various conditions including failed back syndrome, chronic regional pain syndrome, refractory radiculopathy, and chronic post operative pain. Since its conceptualization, it has undergone several advances to increase safety and convenience for patients and implanting physicians. Current research and efforts are aimed towards novel programming modalities and modifications of existing hardware. Here we review the recent advances and future directions in spinal cord stimulation including a brief review of the history of SCS, SCS waveforms, new materials for SCS electrodes (including artificial skins, new materials, and injectable electrodes), closed loop systems, and neurorestorative devices. [ABSTRACT FROM AUTHOR]

Published

2023

89. Intercommunication between Voltage-Gated Calcium Channels and Estrogen Receptor/Estrogen Signaling: Insights into Physiological and Pathological Conditions.

Author

Subbamanda, Yashashwini Dinesh and Bhargava, Anamika

Subjects

CALCIUM channels, ESTROGEN receptors, ESTROGEN, ESTROGEN regulation, IN vivo studies, IN vitro studies

Abstract

Voltage-gated calcium channels (VGCCs) and estrogen receptors are important cellular proteins that have been shown to interact with each other across varied cells and tissues. Estrogen hormone, the ligand for estrogen receptors, can also exert its effects independent of estrogen receptors that collectively constitute non-genomic mechanisms. Here, we provide insights into the VGCC regulation by estrogen and the possible mechanisms involved therein across several cell types. Notably, most of the interaction is described in neuronal and cardiovascular tissues given the importance of VGCCs in these electrically excitable tissues. We describe the modulation of various VGCCs by estrogen known so far in physiological conditions and pathological conditions. We observed that in most in vitro studies higher concentrations of estrogen were used while a handful of in vivo studies used meager concentrations resulting in inhibition or upregulation of VGCCs, respectively. There is a need for more relevant physiological assays to study the regulation of VGCCs by estrogen. Additionally, other interacting receptors and partners need to be identified that may be involved in exerting estrogen receptor-independent effects of estrogen. [ABSTRACT FROM AUTHOR]

Published

2022

90. Chronic Ca2+ imaging of cortical neurons with long-term expression of GCaMP-X.

Author

Jinli Geng, Yingjun Tang, Zhen Yu, Yunming Gao, Wenxiang Li, Yitong Lu, Bo Wang, Huiming Zhou, Ping Li, Nan Liu, Ping Wang, Yubo Fan, Yaxiong Yang, Zengcai V Guo, and Xiaodong Liu

Published

2022

91. A Bibliometric Analysis of IEEE T-ITS Literature Between 2010 and 2019.

Author

Sun, Xingkai, Ge, Shichao, Wang, Xiao, Lu, Hao, and Herrera-Viedma, Enrique

Abstract

IEEE TRANSACTIONS ON INTELLIGENT TRANSPORTATION SYSTEMS (T-ITS) has become a leading international journal in the field of ITS since its first issue published in 2000. To obtain a structural overview as well as the evolution of T-ITS in the last decade (2010–2019), we present a comprehensive bibliometric analysis from multiple perspectives based on the articles published during the same period in this paper. Our analyses of the T-ITS literature include: (a) statistical analysis;(b) topic analysis; and (c) network analysis. Statistical analysis was first conducted to identify the most highly cited papers, then the top productive and influential authors, institutions and countries/regions were given from paper counts and citations respectively. In order to identify important topics and patterns of evolution, author keywords were used to identify the most frequent topics and the theme river map can visually demonstrate their corresponding trends. Furthermore, keyword co-occurrence network was constructed to reveal the hotspots and the research landscape within this field. In addition, three networks are provided to visualize the relationships and reveal the collaboration patterns from different perspectives, including authors, institutions and countries/regions. The results provide an insight on the characteristics of the publications over the last decade, from which we can know the key contributors and groups who brought the significant growth of the journal. This paper can benefit researchers in terms of promoting understanding of the entire field with the development status and trends. [ABSTRACT FROM AUTHOR]

Published

2022

92. Modeling Small-Granularity Expressway Traffic Volumes With Quantum Walks.

Author

Yu, Zhaoyuan, Li, Dongshuang, Hu, Xu, Zhou, Xinxin, Luo, Wen, Yuan, Linwang, and Zhu, A-Xing

Abstract

At small granularity (e.g., 10-minutes to hourly), expressway traffic volumes rely heavily on drivers’ driving habits heterogeneity and decision randomness, making it challenging for accurate modeling. In this paper, we propose a small granularity simulation model named Small-Granularity Expressway Traffic Volumes with Quantum Walks (SGETV-QW). The proposed model adopts quantum walks to generate probability patterns of the exiting time of drivers from the expressway. Then, we refine and map the generated probability patterns to empirical traffic-volume data via a stepwise regression and quantify the modeling accuracy in both the time and frequency domain. We validate SGETV-QW for traffic volume data from seven stations along the Nanjing-Changzhou Expressway in China and compare it with Autoregressive Integrated Moving Average Model (ARIMA) and Long and Short-Term Memory (LSTM) networks. The results show that SGETV-QW improves the simulation accuracy at small granularity. In addition, traffic volumes simulated by SGETV-QW have almost the same frequency spectrum as observed traffic volumes. Finally, we conduct a sensibility analysis and show that SGETV-QW can adapt its parameters to model traffic volumes at different granularities. [ABSTRACT FROM AUTHOR]

Published

2022

93. QD:Puf Nanohybrids Are Compatible with Studies in Cells.

Author

Wójtowicz, Karolina, Antoniak, Magda A., Trojnar, Martyna, Nyk, Marcin, Trombik, Tomasz, and Grzyb, Joanna

Published

2022

94. Survey of Automated Fare Collection Solutions in Public Transportation.

Author

Bieler, Malte, Skretting, Anders, Budinger, Philippe, and Gronli, Tor-Morten

Abstract

Public transportation is expensive to operate and maintain and is often unsatisfactory. The attractiveness of public transportation can be enhanced by making it more seamless, which, in turn, would reduce financial constraints and inefficiencies. The adoption of mobile devices for ticketing solutions is promising. However, current solutions are often inflexible and require manual interactions that produce evanescent data. Therefore, using leading-edge technologies and infrastructure, it is desirable to develop a solution to fully automate fare collection. In this paper, we provide a comprehensive literature review to understand the state of public transportation and to facilitate the development and implementation of automated fare collection solutions. First, we discuss existing mobile technologies and their common ticketing implementations. Second, we provide a predictive behavior model with sensor analytics to better understand customer needs. Finally, we highlight how machine learning can harness transactional ticketing data to create valuable business intelligence. Overall, developing and implementing automated fare collection solutions in urban transportation is expected to have a significant positive impact on customer experiences, the emergence of new business models and the reduction of pollutant emissions. [ABSTRACT FROM AUTHOR]

Published

2022

95. A Bibliometric Overview of IEEE Transactions on Intelligent Transportation Systems (2000–2021).

Author

Abduljabbar, Rusul L. and Dia, Hussein

Abstract

The IEEE Transactions on Intelligent Transport Systems was founded in 2000 to enhance the sharing of international research on theoretical and practical technology developments in the ITS field. Since then, it has become a leading journal in the field and has attracted a high caliber of multi-disciplinary authors and publications. In recognition of twenty plus years of contributions to the field, this paper analyses the evolution of the journal over its lifetime for the period 2000–2021. A bibliometric analysis is conducted on 3,428 peer-reviewed publications (articles and reviews) using data collected from Core Collection Database of Web of Science. The paper identifies the most influential and cited articles and their impacts on the development of research in the ITS field. The analysis also includes detailed information on top leading authors, their organizations and countries where the research was funded and developed. The analysis shows how the growing interest and diversity of transport technology topics has led to an increase in the number and quality of publications in journal over the past twenty plus years. A visualization of bibliographic coupling, co-authorship and keywords analysis is also presented using the VOSviewer software leading to insightful findings regarding the journal’s impact and standing in this field of research. [ABSTRACT FROM AUTHOR]

Published

2022

96. Fingolimod Nanoemulsions at Different Particle Sizes Define the Fate of Spinal Cord Injury Recovery.

Author

Poormoghadam, Delaram, Shiadeh, Bita Rasoulian, Azedi, Fereshte, Tavakol, Hani, Rezayat, Seyed Mahdi, and Tavakol, Shima

Subjects

DRUG approval, SPINAL cord injuries, FLAVONOIDS, ULTRASONIC imaging, CONVALESCENCE, ANIMAL experimentation, COMPARATIVE studies, DESCRIPTIVE statistics, CONTROLLED release preparations, OXIDOREDUCTASES, NANOPARTICLES, MICE

Abstract

Spinal cord injury (SCI) is a debilitating condition for which no definitive treatment has yet been identified. Notably, it influences other tissues through inflammatory reactions and metabolic disturbances. Therefore, fingolimod (FTY-720), as an FDA-approved inflammatory modulator, would be promising. In the present study, nanocarriers with two distinct monodisperse particle sizes of 60 (nF60) and 190 (nF190) nm were prepared via low-(stirring) and high-energy (probe ultrasound) emulsion oil in water (O/W) methods. Larger nanocarriers showed higher EE% and sustained-release profile than smaller nanocarriers. Neural stem cell (NSC) viability and lactate dehydrogenase (LDH) release were studied in the presence of nanocarriers and free FTY-720. The results indicated that nanocarriers and free FTY-720 enhanced NSC viability compared with the control group. However, nF190 induced significantly less cell membrane damage than nF60. Nanocarriers and free FTY-720 enhanced motor neuron recovery in SCI rats, while body weight and return to bladder reflux by nF190 were significantly higher than those in the nF60 group. Return to bladder reflux might be due to the role of FTY-720 in the regulation of detrusor muscle tone and preservation of the integrity of vessels by acting on endothelial cells. Moreover, nF190 gained higher soleus muscle weight than the free drugs; probably decreasing proinflammatory cytokines in the soleus diminishes muscular atrophy in SCI rats. In summary, it might be said that larger nanocarriers with sustained-release profile and less cell membrane damage seem to be more efficient than smaller ones to manage SCI and enhance bladder reflux. These data will help pharmaceutical companies select the correct particle size for nanodrugs and develop more efficient drug formulations to treat SCI. [ABSTRACT FROM AUTHOR]

Published

2022

97. Drug‐resistant epilepsy: Drug target hypothesis and beyond the receptors.

Author

Fonseca‐Barriendos, Daniel, Frías‐Soria, Christian Lizette, Pérez‐Pérez, Daniel, Gómez‐López, Rosenda, Borroto Escuela, Dasiel O., and Rocha, Luisa

Subjects

DRUG target, EPILEPSY, PROTEIN-protein interactions, NEUROLOGICAL disorders, HYPOTHESIS, PHENOBARBITAL

Abstract

Epilepsy is a chronic neurological disorder that affects more than 50 million people worldwide. Despite a recent introduction of antiseizure drugs for the treatment of epileptic seizures, one‐third of these patients suffer from drug‐resistant epilepsy (DRE). The therapeutic target hypothesis is a cited theory to explain DRE. According to the target hypothesis, the failure to achieve seizure freedom leads to alteration of the structure and/or function of the antiseizure medication (ASM) target. However, this hypothesis fails to explain why patients with DRE do not respond to antiseizure medications of different targets. This review presents different conditions, such as epigenetic mechanisms and protein‐protein interactions that may result in alterations of diverse drug targets using different mechanisms. These novel conditions represent new targets to control DRE. [ABSTRACT FROM AUTHOR]

Published

2022

98. A Survey on the Advancement of Travel Time Estimation Using Mobile Phone Network Data.

Author

Hadachi, Amnir and Pourmoradnasseri, Mozhgan

Abstract

The fast development of information and communication technologies has engendered a massive generation of mobile data with great potential for extracting mobility patterns and sensing urban dynamics. The data, itself, has unique characteristics depending on the technology and the network coverage design for different zones (urban-rural). Therefore, many research directions investigated the potential of such data to extract some important features of traffic information, such as travel time estimation, traffic flow, etc. From this perspective, our paper focuses on highlighting the advancements done during the last twenty years concerning the usage of mobile phone network data to estimate vehicles’ travel time in different geographical conditions. Furthermore, it discusses and covers the existing literature methods and the challenges they face due to the nature of the data, its quality, and its complexity. Finally, we reveal the main trends and directions for future work. [ABSTRACT FROM AUTHOR]

Published

2022

99. Optimizing City-Scale Traffic Through Modeling Observations of Vehicle Movements.

Author

Yang, Fan, Vereshchaka, Alina, Lepri, Bruno, and Dong, Wen

Abstract

The capability of traffic-information systems to sense the movement of millions of users and offer trip plans through mobile phones has enabled a new way of optimizing city traffic dynamics, turning transportation big data into insights and actions in a closed-loop and evaluating this approach in the real world. Existing research has applied dynamic Bayesian networks and deep neural networks to make traffic predictions from floating car data, utilized dynamic programming and simulation approaches to identify how people normally travel with dynamic traffic assignment for policy research, and introduced Markov decision processes and reinforcement learning to optimally control traffic signals. However, none of these works utilized floating car data to suggest departure times and route choices in order to optimize city traffic dynamics. In this paper, we present a study showing that floating car data can lead to lower average trip time, higher on-time arrival ratio, and higher Charypar-Nagel score compared with how people normally travel. The study is based on optimizing a partially observable discrete-time decision process and is evaluated in one synthesized scenario, one partly synthesized scenario, and three real-world scenarios. This study points to the potential of a “living lab” approach where we learn, predict, and optimize behaviors in the real world. [ABSTRACT FROM AUTHOR]

Published

2022

100. Al2O3 nanoparticles trigger the embryonic hepatotoxic response and potentiate TNF-α-induced apoptosis—modulatory effect of p38 MAPK and JNK inhibitors.

Author

Maadurshni, Gobichettipalayam Balasubramaniam, Tharani, Ganeshmurthy Kanniamal, Udayakumar, Inbamani, Nagarajan, Manigandan, and Manivannan, Jeganathan

Subjects

CHICKEN embryos, TUMOR necrosis factors, ERYTHROCYTES, APOPTOSIS, ALUMINUM oxide, NANOPARTICLES

Abstract

Recent evidences illustrated that the release of aluminum oxide nanoparticles (Al2O3-NPs) into the biosphere may pose risk to the environment and cause adverse effects on living organisms including humans. The current study assessed the hepatotoxic effects of Al2O3-NPs on developing chicken embryo and cell culture models. Results demonstrated that Al2O3-NPs exposure causes histological abnormalities and increased the level of tissue damage markers (ALP, AST, and ALT) in the embryonic liver. Furthermore, increased oxidative stress (TBARS) and impaired function of antioxidant enzymes (SOD, CAT, and GPx) were also observed. Moreover, it adversely affects red blood cells (RBC) morphology, liver metabolism, and stress response gene expression (HO-1 and NQO-1). Dose-dependent ROS generation and cytotoxic response in addition to potentiating effect on tumor necrosis factor alpha (TNF-α)-induced apoptosis (caspase-3 activity) were also observed. Inhibition of p38 mitogen-activated protein kinase (p38 MAPK) and c-Jun N-terminal kinase (JNK) pathways modulates Al2O3-NPs-induced apoptosis in HepG2 cells. Novel mechanisms behind embryonic hepatotoxicity, cytotoxic potentiating effects, and possible prevention strategies have been explored. [ABSTRACT FROM AUTHOR]

Published

2022