Brain injury-associated biomarkers of TGF-beta1, S100B, GFAP, NF-L, tTG, AbetaPP, and tau were concomitantly enhanced and the UPS was impaired during acute brain injury caused by Toxocara canisin mice

Liao, Chien Wei; Fan, Chia Kwung; Kao, Ting Chang; Ji, Dar Der; Su, Kang‐Yi; Lin, Yuanhua; Cho, Wen Long

doi:10.1186/1471-2334-8-84

Cited by 58 publications

(55 citation statements)

References 74 publications

(83 reference statements)

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“…Astrocyte activation as evidenced by enhanced expression of GFAP was also observed in infected animals. This parallels the observations of Liao and colleagues (Liao et al, 2008a).…”

Section: The Toxocara Mouse Model: Brain Involvement Accumulation Ansupporting

confidence: 78%

“…Liao and colleagues stated that the effects of Toxocara in the brain in humans are likely to be too cryptic to be clinically detected because the parasite burden is light and thus the neuropathogenesis and sequelae of subtle brain injury in cerebral toxocariasis remain unclear (Liao et al, 2008a). In their view, the murine model could be used to detect these subtle effects.…”

Section: The Toxocara Mouse Model: Brain Involvement Accumulation Anmentioning

confidence: 99%

“…Liao and colleagues (Liao et al, 2008b) also investigated blood-brain barrier impairment in experimental cerebral toxocariasis, as measured by cerebral Evans blue (EB) concentration, pathological changes and glial fibrillary acidic protein (GFAP). Blood-brain barrier permeability (EB) and injury (GFAP) increased with infection duration but these effects did not appear to relate to larval numbers (although these were low, as described above).…”

Section: The Toxocara Mouse Model: Brain Involvement Accumulation Anmentioning

confidence: 99%

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The significance of cerebral toxocariasis: a model system for exploring the link between brain involvement, behaviour and the immune response

Holland

Hamilton

2013

Journal of Experimental Biology

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SummaryToxocara canis is a parasitic nematode that infects canines worldwide, and as a consequence of the widespread environmental dissemination of its ova in host faeces, other abnormal hosts including mice and humans are exposed to infection. In such abnormal or paratenic hosts, the immature third-stage larvae undergo a somatic migration through the organs of the body but fail to reach maturity as adult worms in the intestine. The presence of the migrating larvae contributes to pathology that is dependent upon the intensity of infection and the location of the larvae. A phenomenon of potential public health significance in humans and of ecological significance in mice is that T. canis larvae exhibit neurotrophic behaviour, which results in a greater concentration of parasites in the brain, as infection progresses. Toxocara larval burdens vary between individual outbred mice receiving the same inocula, suggesting a role for immunity in the establishment of cerebral infection. Although the systemic immune response to T. canis has been widely reported, the immune response in the brain has received little attention. Differential cytokine expression and other brain injury-associated biomarkers have been observed in infected versus uninfected outbred and inbred mice. Preliminary data have also suggested a possible link between significant memory impairment and cytokine production associated with T. canis infection. Mice provide a useful, replicable animal model with significant applicability and ease of manipulation. Understanding the cerebral host-parasite relationship may shed some light on the cryptic symptoms of human infection where patients often present with other CNS disorders such as epilepsy and mental retardation.

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“…Astrocyte activation as evidenced by enhanced expression of GFAP was also observed in infected animals. This parallels the observations of Liao and colleagues (Liao et al, 2008a).…”

Section: The Toxocara Mouse Model: Brain Involvement Accumulation Ansupporting

confidence: 78%

Section: The Toxocara Mouse Model: Brain Involvement Accumulation Anmentioning

confidence: 99%

Section: The Toxocara Mouse Model: Brain Involvement Accumulation Anmentioning

confidence: 99%

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The significance of cerebral toxocariasis: a model system for exploring the link between brain involvement, behaviour and the immune response

Holland

Hamilton

2013

Journal of Experimental Biology

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“…Experimental work in mice has established evidence that may have implications for human health, such as the following: larvae recovered from the murine brain differ in number between genetically different inbred mice inoculated with the same dose (189), the distribution of larvae may not be random in the brain (190,191), behavioral alterations are dose dependent (198), cerebral infection can lead to deficits in memory and learning (189), and infection in the brain induces an inflammatory immune response (82,200). Given the central role of cytokines in the brain under normal or disease conditions, prolonged exposure to proinflammatory cytokines that promote neural injuries, e.g., tumor necrosis factor alpha (TNF-␣), IL-6, and IL-1␤, may aggravate neurodegenerative progression and compromise vulnerable neurons (201).…”

Section: Murine Models Of Neurological Inflammation Ubiquitin-proteamentioning

confidence: 99%

“…A role for Foxp3 ϩ CD4 ϩ CD25 ϩ T regulatory (Treg) cells in the regulation of immunopathology, including granuloma development in murine models of toxocaral hepatitis, and in the enhanced expression of transforming growth factor ␤1 (TGF-␤1) was recently suggested. TGF-␤1 is important for the function and local survival of Treg cells during larval migration in the muscle, small intestine, brain, and liver of the mouse (80)(81)(82). The potential susceptibility loci of HLA class II molecules are considered to be involved in regulating Th2-dominant immunity (controlled by Foxp3 ϩ CD4 ϩ CD25 ϩ Treg cells by stimulation through TGF-␤1), creating an environment that benefits larvae but potentially contributes to organ damage (81).…”

Section: Types Of Human Toxocariasis and Immunopathogenesismentioning

confidence: 99%

Cerebral Toxocariasis: Silent Progression to Neurodegenerative Disorders?

et al. 2015

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SUMMARY Toxocara canis and T. cati are highly prevalent nematode infections of the intestines of dogs and cats. In paratenic hosts, larvae do not mature in the intestine but instead migrate through the somatic tissues and organs of the body. The presence of these migrating larvae can contribute to pathology. Toxocara larvae can invade the brains of humans, and while case descriptions of cerebral toxocariasis are historically rare, improved diagnosis and greater awareness have contributed to increased detection. Despite this, cerebral or neurological toxocariasis (NT) remains a poorly understood phenomenon. Furthermore, our understanding of cognitive deficits due to toxocariasis in human populations remains particularly deficient. Recent data describe an enhanced expression of biomarkers associated with brain injury, such as GFAP, AβPP, transforming growth factor β1 (TGF-β1), NF-L, S100B, tTG, and p-tau, in mice receiving even low doses of Toxocara ova. Finally, this review outlines a hypothesis to explore the relationship between the presence of T. canis larvae in the brain and the progression of Alzheimer's disease (AD) due to enhanced AD-associated neurodegenerative biomarker expression.

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Transplantation of subventricular zone neural precursors induces an endogenous precursor cell response in a rat model of Parkinson's disease

Madhavan

Daley

Paumier

et al. 2009

J of Comparative Neurology

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Realistically, future stem cell therapies for neurological conditions including Parkinson's disease (PD) will most probably entail combination treatment strategies, involving both the stimulation of endogenous cells and transplantation. Therefore, this study investigates these two modes of neural precursor cell (NPC) therapy in concert in order to determine their interrelationships in a rat PD model. Human placental alkaline phosphatase (hPAP) labeled NPCs were transplanted unilaterally into host rats which were subsequently infused ipsilaterally with 6-hydroxydopamine (6-OHDA). The reaction of host NPCs to the transplantation and 6-OHDA was tracked by bromodeoxyuridine labeling. Two weeks after transplantation, in animals transplanted with NPCs, we found evidence of elevated host subventricular zone NPC proliferation, neurogenesis, and migration to the graft site. In these animals, we also observed a significant preservation of striatal tyrosine hydroxylase (TH) expression and substantia nigra TH cell number. We have seen no evidence that neuroprotection is a product of DA neuron replacement by NPC-derived cells. Rather, the NPCs expressed glial cell line-derived neurotrophic factor (GDNF), sonic hedgehog (Shh) and stromal cell derived factor 1 alpha (SDF1α) providing a molecular basis for the observed neuroprotection and endogenous NPC response to transplantation. In summary, our data suggests plausible synergy between exogenous and endogenous NPC actions, and that NPC implantation before the 6-OHDA insult can create a host microenvironment conducive to stimulation of endogenous NPCs, and protection of mature nigral neurons.

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Brain injury-associated biomarkers of TGF-beta1, S100B, GFAP, NF-L, tTG, AbetaPP, and tau were concomitantly enhanced and the UPS was impaired during acute brain injury caused by Toxocara canisin mice

Cited by 58 publications

References 74 publications

The significance of cerebral toxocariasis: a model system for exploring the link between brain involvement, behaviour and the immune response

The significance of cerebral toxocariasis: a model system for exploring the link between brain involvement, behaviour and the immune response

Cerebral Toxocariasis: Silent Progression to Neurodegenerative Disorders?

Transplantation of subventricular zone neural precursors induces an endogenous precursor cell response in a rat model of Parkinson's disease

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