scholarly journals An amygdalar neural ensemble that encodes the unpleasantness of pain

Science ◽  
2019 ◽  
Vol 363 (6424) ◽  
pp. 276-281 ◽  
Author(s):  
Gregory Corder ◽  
Biafra Ahanonu ◽  
Benjamin F. Grewe ◽  
Dong Wang ◽  
Mark J. Schnitzer ◽  
...  
Keyword(s):  
Basolateral Amygdala ◽  
Pain Perception ◽  
Time Lapse ◽  
Affective Valence ◽  
Neural Ensemble ◽  
Nociceptive Information ◽  
Noxious Stimuli ◽  
Withdrawal Reflexes ◽  
Perceptual Changes

Pain is an unpleasant experience. How the brain’s affective neural circuits attribute this aversive quality to nociceptive information remains unknown. By means of time-lapse in vivo calcium imaging and neural activity manipulation in freely behaving mice encountering noxious stimuli, we identified a distinct neural ensemble in the basolateral amygdala that encodes the negative affective valence of pain. Silencing this nociceptive ensemble alleviated pain affective-motivational behaviors without altering the detection of noxious stimuli, withdrawal reflexes, anxiety, or reward. Following peripheral nerve injury, innocuous stimuli activated this nociceptive ensemble to drive dysfunctional perceptual changes associated with neuropathic pain, including pain aversion to light touch (allodynia). These results identify the amygdalar representations of noxious stimuli that are functionally required for the negative affective qualities of acute and chronic pain perception.

Ultrastructure of melanocyte-keratinocyte interactions and pigment transfer in vitro

1978 ◽  
Vol 36 (2) ◽  
pp. 650-651
Author(s):  
Raul I. Garcia ◽  
Evelyn A. Flynn ◽  
George Szabo
Keyword(s):  
Direct Injection ◽  
Skin Pigmentation ◽  
Freeze Fracture ◽  
Pigment Granule ◽  
Time Lapse ◽  
Ultrastructural Level ◽  
Lanthanum Tracer ◽  
A Cell

Skin pigmentation in mammals involves the interaction of epidermal melanocytes and keratinocytes in the structural and functional unit known as the Epidermal Melanin Unit. Melanocytes(M) synthesize melanin within specialized membrane-bound organelles, the melanosome or pigment granule. These are subsequently transferred by way of M dendrites to keratinocytes(K) by a mechanism still to be clearly defined. Three different, though not necessarily mutually exclusive, mechanisms of melanosome transfer have been proposed: cytophagocytosis by K of M dendrite tips containing melanosomes, direct injection of melanosomes into the K cytoplasm through a cell-to-cell pore or communicating channel formed by localized fusion of M and K cell membranes, release of melanosomes into the extracellular space(ECS) by exocytosis followed by K uptake using conventional phagocytosis. Variability in methods of transfer has been noted both in vivo and in vitro and there is evidence in support of each transfer mechanism. We Have previously studied M-K interactions in vitro using time-lapse cinemicrography and in vivo at the ultrastructural level using lanthanum tracer and freeze-fracture.

scholarly journals Structural basis for proficient oxidized ribonucleotide insertion in double strand break repair

2021 ◽  
Vol 12 (1) ◽  
Author(s):  
Joonas A. Jamsen ◽  
Akira Sassa ◽  
Lalith Perera ◽  
David D. Shock ◽  
William A. Beard ◽  
...  
Keyword(s):  
Mammalian Cells ◽  
Time Lapse ◽  
Strand Break ◽  
Structural Basis ◽  
End Joining ◽  
Strand Breaks ◽  
Nucleotide Pools ◽  
Nucleotide Insertion ◽  
Non Homologous End Joining

AbstractReactive oxygen species (ROS) oxidize cellular nucleotide pools and cause double strand breaks (DSBs). Non-homologous end-joining (NHEJ) attaches broken chromosomal ends together in mammalian cells. Ribonucleotide insertion by DNA polymerase (pol) μ prepares breaks for end-joining and this is required for successful NHEJ in vivo. We previously showed that pol μ lacks discrimination against oxidized dGTP (8-oxo-dGTP), that can lead to mutagenesis, cancer, aging and human disease. Here we reveal the structural basis for proficient oxidized ribonucleotide (8-oxo-rGTP) incorporation during DSB repair by pol μ. Time-lapse crystallography snapshots of structural intermediates during nucleotide insertion along with computational simulations reveal substrate, metal and side chain dynamics, that allow oxidized ribonucleotides to escape polymerase discrimination checkpoints. Abundant nucleotide pools, combined with inefficient sanitization and repair, implicate pol μ mediated oxidized ribonucleotide insertion as an emerging source of widespread persistent mutagenesis and genomic instability.

Live imaging of Runx1 expression in the dorsal aorta tracks the emergence of blood progenitors from endothelial cells

Blood ◽  
2010 ◽  
Vol 116 (6) ◽  
pp. 909-914 ◽  
Author(s):  
Enid Yi Ni Lam ◽  
Christopher J. Hall ◽  
Philip S. Crosier ◽  
Kathryn E. Crosier ◽  
Maria Vega Flores
Keyword(s):  
Endothelial Cells ◽  
Transcription Factor ◽  
Fluorescent Protein ◽  
Living Organism ◽  
Time Lapse ◽  
Dorsal Aorta ◽  
Transgenic Zebrafish ◽  
Hematopoietic Stem ◽  
Green Fluorescent

Abstract Blood cells of an adult vertebrate are continuously generated by hematopoietic stem cells (HSCs) that originate during embryonic life within the aorta-gonad-mesonephros region. There is now compelling in vivo evidence that HSCs are generated from aortic endothelial cells and that this process is critically regulated by the transcription factor Runx1. By time-lapse microscopy of Runx1-enhanced green fluorescent protein transgenic zebrafish embryos, we were able to capture a subset of cells within the ventral endothelium of the dorsal aorta, as they acquire hemogenic properties and directly emerge as presumptive HSCs. These nascent hematopoietic cells assume a rounded morphology, transiently occupy the subaortic space, and eventually enter the circulation via the caudal vein. Cell tracing showed that these cells subsequently populated the sites of definitive hematopoiesis (thymus and kidney), consistent with an HSC identity. HSC numbers depended on activity of the transcription factor Runx1, on blood flow, and on proper development of the dorsal aorta (features in common with mammals). This study captures the earliest events of the transition of endothelial cells to a hemogenic endothelium and demonstrates that embryonic hematopoietic progenitors directly differentiate from endothelial cells within a living organism.

scholarly journals A Ras-like GTPase Is Involved in Hyphal Growth Guidance in the Filamentous Fungus Ashbya gossypii

2004 ◽  
Vol 15 (10) ◽  
pp. 4622-4632 ◽  
Author(s):  
Yasmina Bauer ◽  
Philipp Knechtle ◽  
Jürgen Wendland ◽  
Hanspeter Helfer ◽  
Peter Philippsen
Keyword(s):  
Fluorescent Protein ◽  
Hyphal Growth ◽  
Time Lapse ◽  
Growth Direction ◽  
Ashbya Gossypii ◽  
Growth Guidance ◽  
Characteristic Features ◽  
Green Fluorescent ◽  
Hyphal Tip

Characteristic features of morphogenesis in filamentous fungi are sustained polar growth at tips of hyphae and frequent initiation of novel growth sites (branches) along the extending hyphae. We have begun to study regulation of this process on the molecular level by using the model fungus Ashbya gossypii. We found that the A. gossypii Ras-like GTPase Rsr1p/Bud1p localizes to the tip region and that it is involved in apical polarization of the actin cytoskeleton, a determinant of growth direction. In the absence of RSR1/BUD1, hyphal growth was severely slowed down due to frequent phases of pausing of growth at the hyphal tip. During pausing events a hyphal tip marker, encoded by the polarisome component AgSPA2, disappeared from the tip as was shown by in vivo time-lapse fluorescence microscopy of green fluorescent protein-labeled AgSpa2p. Reoccurrence of AgSpa2p was required for the resumption of hyphal growth. In the Agrsr1/bud1Δ deletion mutant, resumption of growth occurred at the hyphal tip in a frequently uncoordinated manner to the previous axis of polarity. Additionally, hyphal filaments in the mutant developed aberrant branching sites by mislocalizing AgSpa2p thus distorting hyphal morphology. These results define AgRsr1p/Bud1p as a key regulator of hyphal growth guidance.

scholarly journals Measuring fast gene dynamics in single cells with time-lapse luminescence microscopy

2014 ◽  
Vol 25 (22) ◽  
pp. 3699-3708 ◽  
Author(s):  
Anyimilehidi Mazo-Vargas ◽  
Heungwon Park ◽  
Mert Aydin ◽  
Nicolas E. Buchler
Keyword(s):  
Gene Expression ◽  
Fluorescent Proteins ◽  
Single Cells ◽  
Time Lapse ◽  
Photon Flux ◽  
Luminescence Microscopy ◽  
Cell Cycle Genes ◽  
Light Excitation ◽  
Better Than

Time-lapse fluorescence microscopy is an important tool for measuring in vivo gene dynamics in single cells. However, fluorescent proteins are limited by slow chromophore maturation times and the cellular autofluorescence or phototoxicity that arises from light excitation. An alternative is luciferase, an enzyme that emits photons and is active upon folding. The photon flux per luciferase is significantly lower than that for fluorescent proteins. Thus time-lapse luminescence microscopy has been successfully used to track gene dynamics only in larger organisms and for slower processes, for which more total photons can be collected in one exposure. Here we tested green, yellow, and red beetle luciferases and optimized substrate conditions for in vivo luminescence. By combining time-lapse luminescence microscopy with a microfluidic device, we tracked the dynamics of cell cycle genes in single yeast with subminute exposure times over many generations. Our method was faster and in cells with much smaller volumes than previous work. Fluorescence of an optimized reporter (Venus) lagged luminescence by 15–20 min, which is consistent with its known rate of chromophore maturation in yeast. Our work demonstrates that luciferases are better than fluorescent proteins at faithfully tracking the underlying gene expression.

Motility of the Limulus blood cell

1979 ◽  
Vol 37 (1) ◽  
pp. 169-180
Author(s):  
P.B. Armstrong
Keyword(s):  
Tissue Culture ◽  
Time Lapse ◽  
Coelomic Fluid ◽  
Cellular Motility ◽  
Paraffin Oil ◽  
Motile Cells ◽  
Direct Microscopic Examination ◽  
High Concentrations ◽  
Glass Surfaces

The sole cell type (the amoebocyte) found in the coelomic fluid of the horseshoe crab, Limulus polyphemus can be stimulated to become motile by extravasation or trauma. Motility was studied using time-lapse microcinematography and direct microscopic examination of cells in tissue culture and in gill leaflets isolated from young animals. Phase-contrast and Nomarski differential-interference contrast optics were employed. Both in culture and in the gills, motile cells showed 2 interconvertible morphological types: the contracted cell, which was compact and rounded and had a relatively small area of contact with the substratum, and a flattened from with a larger area of contact. In both morphological types, motility involved the protrusion of hyaline pseudopods followed by flow of granular endoplasm forward in the pseudoplod. Cellular motility in vivo (in the gill leaflet) was morphologically identical to that displayed in tissue culture. In culture, motility was unaffected by the nature of the substratum: cells were indistinguishable on fluid (paraffin oil) or solid (glass) substrata or on hydrophobic (paraffin oil, siliconized glass) or hydrophilic (clean glass) surfaces. Cells migrated and spread on agar surfaces. Cell motility was unaffected by high concentrations (100 micrograms/ml) of the microtubule-depolymerizing agent colcemid and was abolished by cytochalasin B at 1 microgram/ml.

Effect of pre-cooling agent on intensity of pricking pain at intraoral injection site in adults: An experimental study.

2021 ◽  
pp. 1-12
Author(s):  
Munazza Aziz ◽  
Shahbaz Ahmed ◽  
Fazal-ur-Rehman Qazi ◽  
Farah Naz ◽  
Marina Shah ◽  
...  
Keyword(s):  
Injection Site ◽  
Pain Perception ◽  
Topical Anesthesia ◽  
Adult Patients ◽  
P Value ◽  
Age Group ◽  
Restorative Treatment ◽  
Cooling Agent ◽  
Infiltration Anesthesia

Abstract Objective: To determine the effect of pre-cooling agent on the intensity of pricking pain at the intraoral injection site in adult patients. Method: An in-vivo interventional study, using split-mouth technique was conducted in the Department of Operative Dentistry, Dr. Ishrat-ul-Ebad Khan Institute of Oral Health Sciences, DUHS, Karachi, between September 2018 to August 2019. Total 152 adult patients meeting the inclusion criteria were selected, and consent form was signed to investigate the pricking pain perception during needle administration. Topical anesthesia (benzocaine gel) was applied on left side (control) for 1 min whereas on the experimental (right) side the refrigerated cartridge was placed for 2 minutes. Infiltration anesthesia was then administered on both sides respectively. Patient’s pain perception ratings were measured through Visual analog scale (VAS). After profound anesthesia was achieved, restorative treatment was performed under rubber dam isolation. Statistical analysis was done using SPSS Version 24. Results: The effect of pre-cooling agent i.e. refrigerated cartridge, was statistically significant (P-value <0.05) on the intensity of pricking pain at the intraoral injection site among the age group of 41 to 50 years and female participants of 21to 30 years whereas the effect of pre-cooling agent was found statistically insignificant among the male participants of the age group of 21 to 30 years and irrespective of gender within 31 to 40 years of age. Conclusion: Pre-cooling agent was found effective in decreasing pricking pain sensed by the patients. Precooling agent can be used without topical anesthesia before administering infiltration because cryoanesthesia Continuous...

Tracings of Behavior of Myoblasts Cultured Under Couette Type of Shear Flow Between Parallel Disks

2021 ◽  
Author(s):  
Shigehiro Hashimoto ◽  
Hiroki Yonezawa
Keyword(s):  
Shear Stress ◽  
Shear Flow ◽  
Rotating Disk ◽  
Time Lapse ◽  
Mechanical Stimuli ◽  
Parallel Disks ◽  
Before And After ◽  
A Cell

Abstract A cell deforms and migrates on the scaffold under mechanical stimuli in vivo. In this study, a cell with division during shear stress stimulation has been observed in vitro. Before and after division, both migration and deformation of each cell were analyzed. To make a Couette-type shear flow, the medium was sandwiched between parallel disks (the lower stationary culture-disc and the upper rotating disk) with a constant gap. The wall shear stress (1.5 Pa &lt; τ &lt; 2 Pa) on the surface of the lower culture plate was controlled by the rotational speed of the upper disc. Myoblasts (C2C12: mouse myoblast cell line) were used in the test. After cultivation without flow for 24 hours for adhesion of the cells to the lower disk, constant τ was applied to the cells in the incubator for 7 days. The behavior of each cell during shear was tracked by time-lapse images observed by an inverted phase contrast microscope placed in the incubator. Experimental results show that each cell tends to divide after higher activities: deformation and migration. The tendency is remarkable at the shear stress of 1.5 Pa.

scholarly journals Two Isoforms of Npap60 (Nup50) Differentially Regulate Nuclear Protein Import

2010 ◽  
Vol 21 (4) ◽  
pp. 630-638 ◽  
Author(s):  
Yutaka Ogawa ◽  
Yoichi Miyamoto ◽  
Munehiro Asally ◽  
Masahiro Oka ◽  
Yoshinari Yasuda ◽  
...  
Keyword(s):  
Nuclear Import ◽  
Protein Import ◽  
Nuclear Protein ◽  
Time Lapse ◽  
Binding Assays ◽  
Vitro Binding ◽  
Importin Α ◽  
Nuclear Protein Import

Npap60 (Nup50) is a nucleoporin that binds directly to importin α. In humans, there are two Npap60 isoforms: the long (Npap60L) and short (Npap60S) forms. In this study, we provide both in vitro and in vivo evidence that Npap60L and Npap60S function differently in nuclear protein import. In vitro binding assays revealed that Npap60S stabilizes the binding of importin α to classical NLS-cargo, whereas Npap60L promotes the release of NLS-cargo from importin α. In vivo time-lapse experiments showed that when the Npap60 protein level is controlled, allowing CAS to efficiently promote the dissociation of the Npap60/importin α complex, Npap60S and Npap60L suppress and accelerate the nuclear import of NLS-cargo, respectively. These results demonstrate that Npap60L and Npap60S have opposing functions and suggest that Npap60L and Npap60S levels must be carefully controlled for efficient nuclear import of classical NLS-cargo in humans. This study provides novel evidence that nucleoporin expression levels regulate nuclear import efficiency.

scholarly journals The Positioning and Dynamics of Origins of Replication in the Budding Yeast Nucleus

2001 ◽  
Vol 152 (2) ◽  
pp. 385-400 ◽  
Author(s):  
Patrick Heun ◽  
Thierry Laroche ◽  
M.K. Raghuraman ◽  
Susan M. Gasser
Keyword(s):  
Nuclear Envelope ◽  
Chromatin Structure ◽  
Fluorescent Protein ◽  
Time Lapse ◽  
Yeast Cells ◽  
G1 Phase ◽  
Nuclear Pore ◽  
Origin Firing ◽  
Green Fluorescent

We have analyzed the subnuclear position of early- and late-firing origins of DNA replication in intact yeast cells using fluorescence in situ hybridization and green fluorescent protein (GFP)–tagged chromosomal domains. In both cases, origin position was determined with respect to the nuclear envelope, as identified by nuclear pore staining or a NUP49-GFP fusion protein. We find that in G1 phase nontelomeric late-firing origins are enriched in a zone immediately adjacent to the nuclear envelope, although this localization does not necessarily persist in S phase. In contrast, early firing origins are randomly localized within the nucleus throughout the cell cycle. If a late-firing telomere-proximal origin is excised from its chromosomal context in G1 phase, it remains late-firing but moves rapidly away from the telomere with which it was associated, suggesting that the positioning of yeast chromosomal domains is highly dynamic. This is confirmed by time-lapse microscopy of GFP-tagged origins in vivo. We propose that sequences flanking late-firing origins help target them to the periphery of the G1-phase nucleus, where a modified chromatin structure can be established. The modified chromatin structure, which would in turn retard origin firing, is both autonomous and mobile within the nucleus.

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