493 research outputs found

    Undergraduate students\u27 perceptions of their Holocaust and genocide education

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    A California Juvenile\u27s Right to Trial by Jury: An Issue Now Overripe for Consideration

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    This Comment addresses the issue of a juvenile\u27s right to trial by jury. The author traces the origin and development of the juvenile justice system. The author argues that a quid pro quo system was established where a minor\u27s due process rights were exchanged for the protection and rehabilitative efforts of the juvenile court, but that juvenile courts have failed to effect this purpose. The author analyzes United States Supreme Court case law that extends procedural due process rights to minors. The author then analyzes California case law and addresses the trend toward the criminalization of California juvenile delinquency proceedings. The author presents the strong public policy benefits of granting juveniles the right to a jury trial, suggests that the continued denial of this right can no longer be justified, and concludes that legislative intervention is necessary to secure this right

    Interleukin 6 plays a role in the migration of magnetically levitated mesenchymal stem cells spheroids

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    Mesenchymal stem cells (MSCs) reside quiescently within a specialised ‘niche’ environment in the bone marrow. However, following appropriate signalling cues, MSCs mobilise and migrate out from the niche, typically toward either sites of injury (a regenerative response) or toward primary tumours (an intrinsic homing response, which promotes MSCs as cellular vectors for therapeutic delivery). To date, very little is known about MSC mobilisation. By adopting a 3D MSC niche model, whereby MSC spheroids are cultured within a type I collagen gel, recent studies have highlighted interleukin-6 (IL-6) as a key cytokine involved in MSC migration. Herein, the ability of IL-6 to induce MSC migration was further investigated, and the key matrix metalloproteinases used to effect cell mobilisation were identified. Briefly, the impact of IL-6 on the MSC migration in a two-dimensional model systems was characterised—both visually using an Ibidi chemotaxis plate array (assessing for directional migration) and then via a standard 2D monolayer experiment, where cultured cells were challenged with IL-6 and extracted media tested using an Abcam Human MMP membrane antibody array. The 2D assay displayed a strong migratory response toward IL-6 and analysis of the membrane arrays data showed significant increases of several key MMPs. Both data sets indicated that IL-6 is important in MSC mobilisation and migration. We also investigated the impact of IL-6 induction on MSCs in 3D spheroid culture, serving as a simplistic model of the bone marrow niche, characterised by fluorescently tagged magnetic nanoparticles and identical membrane antibody arrays. An increase in MMP levels secreted by cells treated with 1 ng/mL IL-6 versus control conditions was noted in addition to migration of cells away from the central spheroid mass

    Violence in College Students\u27 Dating Relationships

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    In a survey of 504 college students examining predictors of violence in heterosexual relationships, over half of both men and women had committed at least one physically violent act. Modest associations between physical violence and sexual aggression were uncovered. In a series of discriminant analyses, men who abused their partners were not readily distinguished from men who did not, but tended to by young, low in family income, traditional in attitudes toward women, abused as children, currently living with a women, and from Appalachian areas

    Taxation

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    Intense isolectin-B4 binding in rat dorsal root ganglion neurons distinguishes c-fiber nociceptors with broad action potentials and high nav1.9 expression

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    Binding to isolectin-B4 (IB4) and expression of tyrosine kinase A (trkA) (the high-affinity NGF receptor) have been used to define two different subgroups of nociceptive small dorsal root ganglion (DRG) neurons. We previously showed that only nociceptors have high trkA levels. However, information about sensory and electrophysiological properties in vivo of single identified IB4-binding neurons, and about their trkA expression levels, is lacking. IB4-positive (IB4+) and small dark neurons had similar size distributions. We examined IB4-binding levels in >120 dye-injected DRG neurons with sensory and electrophysiological properties recorded in vivo. Relative immunointensities for trkA and two TTX-resistant sodium channels (Nav1.8 and Nav1.9) were also measured in these neurons. IB4+ neurons were classified as strongly or weakly IB4+. All strongly IB4+ neurons were C-nociceptor type (C-fiber nociceptive or unresponsive). Of 32 C-nociceptor-type neurons examined, ~50% were strongly IB4+, ~20% were weakly IB4+ and ~30% were IB4–. A{delta} low-threshold mechanoreceptive (LTM) neurons were weakly IB4+ or IB4–. All 33 A-fiber nociceptors and all 44 A{alpha}/beta-LTM neurons examined were IB4–. IB4+ compared with IB4– C-nociceptor-type neurons had longer somatic action potential durations and rise times, slower conduction velocities, more negative membrane potentials, and greater immunointensities for Nav1.9 but not Nav1.8. Immunointensities of IB4 binding in C-neurons were positively correlated with those of Nav1.9 but not Nav1.8. Of 23 C-neurons tested for both trkA and IB4, ~35% were trkA+/IB4+ but with negatively correlated immunointensities; 26% were IB4+/trkA–, and 35% were IB4–/trkA+. We conclude that strongly IB4+ DRG neurons are exclusively C-nociceptor type and that high Nav1.9 expression may contribute to their distinct membrane properties

    Mesenchymal stem cell-derived extracellular vesicles may promote breast cancer cell dormancy

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    Disseminated breast cancer cells have the capacity to metastasise to the bone marrow and reside in a dormant state within the mesenchymal stem cell (MSC) niche. Research has focussed on paracrine signalling factors, such as soluble proteins, within the microenvironment. However, it is now clear extracellular vesicles (EVs) secreted by resident MSCs into this microenvironment also play a key role in the initiation of dormancy. Dormancy encourages reduced cell proliferation and migration, whilst upregulating cell adhesion, thus retaining the cancer cells within the bone marrow microenvironment. Here, MCF7 breast cancer cells were treated with MSC-derived EVs, resulting in reduced migration in 2D and 3D culture, with reduced cell proliferation and enhanced adhesion, collectively supporting cancer cell dormancy

    Mesenchymal stem cell-derived extracellular vesicles may promote breast cancer cell dormancy

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    Disseminated breast cancer cells have the capacity to metastasise to the bone marrow and reside in a dormant state within the mesenchymal stem cell (MSC) niche. Research has focussed on paracrine signalling factors, such as soluble proteins, within the microenvironment. However, it is now clear extracellular vesicles (EVs) secreted by resident MSCs into this microenvironment also play a key role in the initiation of dormancy. Dormancy encourages reduced cell proliferation and migration, whilst upregulating cell adhesion, thus retaining the cancer cells within the bone marrow microenvironment. Here, MCF7 breast cancer cells were treated with MSC-derived EVs, resulting in reduced migration in 2D and 3D culture, with reduced cell proliferation and enhanced adhesion, collectively supporting cancer cell dormancy
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