In vivo classification of macaque foveal ganglion cells through optical recording of responses to chromatic and luminance flicker

The title of this paper is challenging, because the question of how in vitro methods and results contribute to human health risk assessment is rarely considered. The process of risk assessment usually begins with hazard assessment, which provides a description of the inherent toxicological properties of the chemical. The next step is to assess the relevance of this to humans, i.e. the human hazard assessment. Finally, information on exposure is examined, and risk can then be assessed. In vitro methods have a limited, but important, role to play in risk assessment. The results can be used for classification and labelling; these are methods of controlling exposure, analogous to risk assessment, but without considering exposure. The Ames Salmonella test is the only in vitro method which is incorporated into regulations and used widely. Data from this test can, at best, lead to classification of a chemical with regard to genotoxicity, but cannot be used for classification and labelling on their own. Several in vitro test systems which assess the topical irritancy and corrosivity of chemicals have been reasonably well validated, and the results from these tests can be used for classification. The future development of in vitro methods is likely to be slow, as it depends on the development of new concepts and ideas. The in vivo methods which currently have reasonably developed in vitro alternatives will be the easiest to replace. The remaining in vivo methods, which provide toxicological information from repeated chronic dosing, with varied endpoints and by mechanisms which are not understood, will be more difficult to replace.

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PRESENCE OF A BASE LINE LEVEL OF SISTER CHROMATID EXCHANGES IN SOMATIC CELLS OF DROSOPHILA MELANOGASTER IN VIVO AND IN VITRO

Genetics ◽

10.1093/genetics/100.2.259 ◽

1982 ◽

Vol 100 (2) ◽

pp. 259-278

Author(s):

Hideo Tsuji

Keyword(s):

Drosophila Melanogaster ◽

Sister Chromatid ◽

Ganglion Cells ◽

Sister Chromatid Exchanges ◽

Base Line ◽

Cell Cycles ◽

Chromatid Exchanges ◽

Third Instar Larvae

ABSTRACT Sister chromatid exchanges (SCEs) under in vivo and in vitro conditions were examined in ganglion cells of third-instar larvae of Drosophila melanogaster (Oregon-R). In the in vivo experiment, third-instar larvae were fed on synthetic media containing 5-bromo-2′-deoxyuridine (BrdUrd). After two cell cycles, ganglia were dissected and treated with colchicine. In the in vitro experiment, the ganglia were also incubated in media containing BrdUrd for two cell cycles, and treated with colchicine. SCEs were scored in metaphase stained with Hoechst 33258 plus Giemsa. The frequencies of SCEs stayed constant in the range of 25-150 vg/ml and 0.25-2.5 vg/ml of BrdUrd in vivo and in vitro, respectively. SCEs gradually increased at higher concentrations, strongly suggesting that at least a fraction of the detected SCEs are spontaneous. The constant levels of SCE frequency were estimated, on the average, at 0.103 per cell per two cell cycles for females and 0.101 for males in vivo and at 0.096 for females and 0.091 for males in vitro. No difference was found in the SCE frequency between sexes at any of the BrdUrd concentrations. The analysis for the distribution of SCEs within chromosomes revealed an extraordinarily high proportion of the SCEs at the junctions between euchromatin and heterochromatin; the remaining SCEs were preferentially localized in the euchromatic regions of the chromosomes and in the heterochromatic Y chromosome. These results were largely inconsistent with those of Gatti et al. (1979).

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Uptake and Distribution of Administered Bone Marrow Mesenchymal Stem Cell Extracellular Vesicles in Retina

Cells ◽

10.3390/cells10040730 ◽

2021 ◽

Vol 10 (4) ◽

pp. 730

Author(s):

Biji Mathew ◽

Leianne A. Torres ◽

Lorea Gamboa Gamboa Acha ◽

Sophie Tran ◽

Alice Liu ◽

...

Keyword(s):

Stem Cell ◽

Mesenchymal Stem Cell ◽

Extracellular Vesicles ◽

Time Course ◽

Ganglion Cells ◽

Ex Vivo ◽

Dependent Manner ◽

Paracrine Effects

Cell replacement therapy using mesenchymal (MSC) and other stem cells has been evaluated for diabetic retinopathy and glaucoma. This approach has significant limitations, including few cells integrated, aberrant growth, and surgical complications. Mesenchymal Stem Cell Exosomes/Extracellular Vesicles (MSC EVs), which include exosomes and microvesicles, are an emerging alternative, promoting immunomodulation, repair, and regeneration by mediating MSC’s paracrine effects. For the clinical translation of EV therapy, it is important to determine the cellular destination and time course of EV uptake in the retina following administration. Here, we tested the cellular fate of EVs using in vivo rat retinas, ex vivo retinal explant, and primary retinal cells. Intravitreally administered fluorescent EVs were rapidly cleared from the vitreous. Retinal ganglion cells (RGCs) had maximal EV fluorescence at 14 days post administration, and microglia at 7 days. Both in vivo and in the explant model, most EVs were no deeper than the inner nuclear layer. Retinal astrocytes, microglia, and mixed neurons in vitro endocytosed EVs in a dose-dependent manner. Thus, our results indicate that intravitreal EVs are suited for the treatment of retinal diseases affecting the inner retina. Modification of the EV surface should be considered for maintaining EVs in the vitreous for prolonged delivery.

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Endothelin 1-induced retinal ganglion cell death is largely mediated by JUN activation

Cell Death and Disease ◽

10.1038/s41419-020-02990-0 ◽

2020 ◽

Vol 11 (9) ◽

Author(s):

Olivia J. Marola ◽

Stephanie B. Syc-Mazurek ◽

Gareth R. Howell ◽

Richard T. Libby

Keyword(s):

Transcription Factor ◽

Molecular Mechanisms ◽

Ganglion Cells ◽

Retinal Vessel ◽

Vessel Diameter ◽

Retinal Ganglion ◽

Retinal Ganglion Cell Death ◽

Ganglion Cell Death

Abstract Glaucoma is a neurodegenerative disease characterized by loss of retinal ganglion cells (RGCs), the output neurons of the retina. Multiple lines of evidence show the endothelin (EDN, also known as ET) system is important in glaucomatous neurodegeneration. To date, the molecular mechanisms within RGCs driving EDN-induced RGC death have not been clarified. The pro-apoptotic transcription factor JUN (the canonical target of JNK signaling) and the endoplasmic reticulum stress effector and transcription factor DNA damage inducible transcript 3 (DDIT3, also known as CHOP) have been shown to act downstream of EDN receptors. Previous studies demonstrated that JUN and DDIT3 were important regulators of RGC death after glaucoma-relevant injures. Here, we characterized EDN insult in vivo and investigated the role of JUN and DDIT3 in EDN-induced RGC death. To accomplish this, EDN1 ligand was intravitreally injected into the eyes of wildtype, Six3-cre+Junfl/fl (Jun−/−), Ddit3 null (Ddit3−/−), and Ddit3−/−Jun−/− mice. Intravitreal EDN1 was sufficient to drive RGC death in vivo. EDN1 insult caused JUN activation in RGCs, and deletion of Jun from the neural retina attenuated RGC death after EDN insult. However, deletion of Ddit3 did not confer significant protection to RGCs after EDN1 insult. These results indicate that EDN caused RGC death via a JUN-dependent mechanism. In addition, EDN signaling is known to elicit potent vasoconstriction. JUN signaling was shown to drive neuronal death after ischemic insult. Therefore, the effects of intravitreal EDN1 on retinal vessel diameter and hypoxia were explored. Intravitreal EDN1 caused transient retinal vasoconstriction and regions of RGC and Müller glia hypoxia. Thus, it remains a possibility that EDN elicits a hypoxic insult to RGCs, causing apoptosis via JNK-JUN signaling. The importance of EDN-induced vasoconstriction and hypoxia in causing RGC death after EDN insult and in models of glaucoma requires further investigation.

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Spatial receptive field properties of rat retinal ganglion cells

Visual Neuroscience ◽

10.1017/s0952523811000307 ◽

2011 ◽

Vol 28 (5) ◽

pp. 403-417 ◽

Cited By ~ 19

Author(s):

WALTER F. HEINE ◽

CHRISTOPHER L. PASSAGLIA

Keyword(s):

Receptive Field ◽

Ganglion Cell ◽

Retinal Ganglion Cells ◽

Ganglion Cells ◽

Cell Types ◽

Quantitative Information ◽

Retinal Ganglion ◽

X And Y Cells ◽

Y Cells

AbstractThe rat is a popular animal model for vision research, yet there is little quantitative information about the physiological properties of the cells that provide its brain with visual input, the retinal ganglion cells. It is not clear whether rats even possess the full complement of ganglion cell types found in other mammals. Since such information is important for evaluating rodent models of visual disease and elucidating the function of homologous and heterologous cells in different animals, we recorded from rat ganglion cells in vivo and systematically measured their spatial receptive field (RF) properties using spot, annulus, and grating patterns. Most of the recorded cells bore likeness to cat X and Y cells, exhibiting brisk responses, center-surround RFs, and linear or nonlinear spatial summation. The others resembled various types of mammalian W cell, including local-edge-detector cells, suppressed-by-contrast cells, and an unusual type with an ON–OFF surround. They generally exhibited sluggish responses, larger RFs, and lower responsiveness. The peak responsivity of brisk-nonlinear (Y-type) cells was around twice that of brisk-linear (X-type) cells and several fold that of sluggish cells. The RF size of brisk-linear and brisk-nonlinear cells was indistinguishable, with average center and surround diameters of 5.6 ± 1.3 and 26.4 ± 11.3 deg, respectively. In contrast, the center diameter of recorded sluggish cells averaged 12.8 ± 7.9 deg. The homogeneous RF size of rat brisk cells is unlike that of cat X and Y cells, and its implication regarding the putative roles of these two ganglion cell types in visual signaling is discussed.

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Classification of prostatic diseases by means of multivariate analysis on in vivo proton MRSI and DCE-MRI data

NMR in Biomedicine ◽

10.1002/nbm.1408 ◽

2009 ◽

Vol 22 (10) ◽

pp. 1036-1046 ◽

Cited By ~ 5

Author(s):

Mariacristina Valerio ◽

Valeria Panebianco ◽

Alessandro Sciarra ◽

Marcello Osimani ◽

Stefano Salsiccia ◽

...

Keyword(s):

Multivariate Analysis ◽

Dce Mri ◽

Prostatic Diseases

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Otx2 Promotes the Survival of Damaged Adult Retinal Ganglion Cells and Protects against Excitotoxic Loss of Visual Acuity In Vivo

Journal of Neuroscience ◽

10.1523/jneurosci.0187-11.2011 ◽

2011 ◽

Vol 31 (14) ◽

pp. 5495-5503 ◽

Cited By ~ 26

Author(s):

R. T. Ibad ◽

J. Rheey ◽

S. Mrejen ◽

V. Forster ◽

S. Picaud ◽

...

Keyword(s):

Visual Acuity ◽

Retinal Ganglion Cells ◽

Ganglion Cells ◽

Retinal Ganglion ◽

Loss Of Visual Acuity

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Classification of lymphoid neoplasms: the microscope as a tool for disease discovery

Blood ◽

10.1182/blood-2008-07-077982 ◽

2008 ◽

Vol 112 (12) ◽

pp. 4384-4399 ◽

Cited By ~ 226

Author(s):

Elaine S. Jaffe ◽

Nancy Lee Harris ◽

Harald Stein ◽

Peter G. Isaacson

Keyword(s):

Molecular Mechanisms ◽

Nk Cell ◽

Clinical Manifestations ◽

Lymphoid Cells ◽

World Health ◽

International Studies ◽

Lymphocyte Function ◽

Lymphoid Neoplasms

AbstractIn the past 50 years, we have witnessed explosive growth in the understanding of normal and neoplastic lymphoid cells. B-cell, T-cell, and natural killer (NK)–cell neoplasms in many respects recapitulate normal stages of lymphoid cell differentiation and function, so that they can be to some extent classified according to the corresponding normal stage. Likewise, the molecular mechanisms involved the pathogenesis of lymphomas and lymphoid leukemias are often based on the physiology of the lymphoid cells, capitalizing on deregulated normal physiology by harnessing the promoters of genes essential for lymphocyte function. The clinical manifestations of lymphomas likewise reflect the normal function of lymphoid cells in vivo. The multiparameter approach to classification adopted by the World Health Organization (WHO) classification has been validated in international studies as being highly reproducible, and enhancing the interpretation of clinical and translational studies. In addition, accurate and precise classification of disease entities facilitates the discovery of the molecular basis of lymphoid neoplasms in the basic science laboratory.

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