Bryce Schroder scite author profile

Accumulation of aggregated amyloid-β peptide (Aβ) has been studied as an initial step of Alzheimer’s disease (AD) pathogenesis. Following amyloid plaque formation, reactive microglia and astrocytes accumulate around the plaques and cause neuroinflammation, where brain chemokines play a major role for the glial accumulation. We have previously shown that transgenic over-expression of chemokine CCL2 in the brain resulted in increased microglial accumulation and diffuse amyloid plaque deposition in a transgenic mouse model of AD expressing Swedish amyloid precursor protein (APP) mutant. Here we report that adeno-associated virus (AAV) serotype 1 and 2 hybrid efficiently deliver 7ND gene, a dominant-negative CCL2 mutant, in dose-response manner and express up to 1000-fold higher amount of recombinant CCL2 over basal level after single administration in brain. AAV1/2 hybrid virus mainly infected neurons without neuroinflammation, and the expression is sustained at least 6-months period. 7ND expressed in APP/presenilin-1 (APP/PS1) bigenic mice reduced astro/microgliosis, beta-amyloidosis, including suppression of both fibrillar and oligomer Aβ accumulation, and improved spatial learning. Our data support that AAV1/2 system is a useful tool for CNS gene delivery, and suppression of CCL2 may be a therapeutic target for the amelioration of AD-related neuroinflammation.

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Changes in cell shape are correlated with metastatic potential in murine and human osteosarcomas

Lyons

Alizadeh

Mannheimer

et al. 2016

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Metastatic cancer cells for many cancers are known to have altered cytoskeletal properties, in particular to be more deformable and contractile. Consequently, shape characteristics of more metastatic cancer cells may be expected to have diverged from those of their parental cells. To examine this hypothesis we study shape characteristics of paired osteosarcoma cell lines, each consisting of a less metastatic parental line and a more metastatic line, derived from the former by in vivo selection. Two-dimensional images of four pairs of lines were processed. Statistical analysis of morphometric characteristics shows that shape characteristics of the metastatic cell line are partly overlapping and partly diverged from the parental line. Significantly, the shape changes fall into two categories, with three paired cell lines displaying a more mesenchymal-like morphology, while the fourth displaying a change towards a more rounded morphology. A neural network algorithm could distinguish between samples of the less metastatic cells from the more metastatic cells with near perfect accuracy. Thus, subtle changes in shape carry information about the genetic changes that lead to invasiveness and metastasis of osteosarcoma cancer cells.

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Superdiffusive motion of membrane-targeting C2 domains

Campagnola

Nepal

Schroder

et al. 2015

Sci Rep

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Membrane-targeting domains play crucial roles in the recruitment of signalling molecules to the plasma membrane. For most peripheral proteins, the protein-to-membrane interaction is transient. After proteins dissociate from the membrane they have been observed to rebind following brief excursions in the bulk solution. Such membrane hops can have broad implications for the efficiency of reactions on membranes. We study the diffusion of membrane-targeting C2 domains using single-molecule tracking in supported lipid bilayers. The ensemble-averaged mean square displacement (MSD) exhibits superdiffusive behaviour. However, traditional time-averaged MSD analysis of individual trajectories remains linear and does not reveal superdiffusion. Our observations are explained in terms of bulk excursions that introduce jumps with a heavy-tail distribution. These hopping events allow proteins to explore large areas in a short time. The experimental results are shown to be consistent with analytical models of bulk-mediated diffusion and numerical simulations.

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Cofilin Regulates Nuclear Architecture through a Myosin-II Dependent Mechanotransduction Module

Wiggan

Schroder

Krapf

et al. 2017

Sci Rep

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Structural features of the nucleus including shape, size and deformability impact its function affecting normal cellular processes such as cell differentiation and pathological conditions such as tumor cell migration. Despite the fact that abnormal nuclear morphology has long been a defining characteristic for diseases such as cancer relatively little is known about the mechanisms that control normal nuclear architecture. Mounting evidence suggests close coupling between F-actin cytoskeletal organization and nuclear morphology however, mechanisms regulating this coupling are lacking. Here we identify that Cofilin/ADF-family F-actin remodeling proteins are essential for normal nuclear structure in different cell types. siRNA mediated silencing of Cofilin/ADF provokes striking nuclear defects including aberrant shapes, nuclear lamina disruption and reductions to peripheral heterochromatin. We provide evidence that these anomalies are primarily due to Rho kinase (ROCK) controlled excessive contractile myosin-II activity and not to elevated F-actin polymerization. Furthermore, we demonstrate a requirement for nuclear envelope LINC (linker of nucleoskeleton and cytoskeleton) complex proteins together with lamin A/C for nuclear aberrations induced by Cofilin/ADF loss. Our study elucidates a pivotal regulatory mechanism responsible for normal nuclear structure and which is expected to fundamentally influence nuclear function.

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Force Spectroscopy in the Bloodstream of Live Embryonic Zebrafish with Optical Tweezers

Schroder

Johnson

Garrity

et al. 2014

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Bryce Schroder

AAV1/2-mediated CNS Gene Delivery of Dominant-negative CCL2 Mutant Suppresses Gliosis, β-amyloidosis, and Learning Impairment of APP/PS1 Mice

Changes in cell shape are correlated with metastatic potential in murine and human osteosarcomas

Superdiffusive motion of membrane-targeting C2 domains

Cofilin Regulates Nuclear Architecture through a Myosin-II Dependent Mechanotransduction Module

Force Spectroscopy in the Bloodstream of Live Embryonic Zebrafish with Optical Tweezers

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