Abstract After unilateral lesion of the medial forebrain bundle by 6-OHDA rats exhibit lateralized deficits in spontaneous behavior or apomorphine-induced rotations. We investigated whether such lateralization is attenuated by either deep brain stimulation (DBS) or glutamatergic neurotransmission in the inferior colliculus (IC) of Wistar rats. Intracollicular DBS did not affect spontaneous lateralization but attenuated apomorphine-induced rotations. Spontaneous lateralization disappeared after either the glutamatergic antagonist MK-801 or the agonist NMDA microinjections into the IC. Apomorphine-induced rotations were potentiated by MK-801 but were not affected by NMDA intracollicular microinjection. After injecting a bidirectional neural tract tracer into the IC, cell bodies and/or axonal fibers were found in the periaqueductal gray matter, superior colliculus, substantia nigra, cuneiform nucleus, and pedunculo-pontine tegmental nucleus, suggesting the involvement of these structures in the motor improvement after IC manipulation. Importantly, the side of the IC microinjection regarding the lesion (ipsilateral or contralateral) is particularly important, and this effect may not involve the neostriatum directly.
We have prepared a manuscript that represents our analysis regarding our study. Gliomas are more than 80% of all primary brain cancers and 24% of all brain tumors 1. In 2021, the new edition of WHO - Classification of Tumors of the Central Nervous System (WHO- CTCNS) 2 established genetic and molecular aspects to the analysis since they could be correlated to characteristics of tumor behavior and clinical-epidemiological features. However, there are few studies correlating molecular analysis to the clinical follow-up of patients in Brazil. We performed a preliminary, observational, prospective and descriptive study that aims to obtain and to compare clinical-epidemiological data to molecular markers of patients in follow-up at Central Hospital of Santa Casa de São Paulo (HC-ISCMSP).
Abstract Background Glioblastoma (GB) cells have the ability to migrate and infiltrate the normal parenchyma, leading to the formation of recurrent tumors often adjacent to the surgical extraction site. We recently showed that Phoneutria nigriventer spider venom (PnV) has anticancer effects mainly on the migration of human GB cell lines (NG97 and U-251). The present work aimed to investigate the effects of isolated components from the venom on migration, invasiveness, morphology and adhesion of GB cells, also evaluating RhoA-ROCK signaling and Na + /K + -ATPase β2 (AMOG) involvement. Methods Human (NG97) GB cells were treated with twelve subfractions (SFs—obtained by HPLC from PnV). Migration and invasion were evaluated by scratch wound healing and transwell assays, respectively. Cell morphology and actin cytoskeleton were shown by GFAP and phalloidin labeling. The assay with fibronectin coated well plate was made to evaluate cell adhesion. Western blotting demonstrated ROCK and AMOG levels and a ROCK inhibitor was used to verify the involvement of this pathway. Values were analyzed by the GraphPad Prism software package and the level of significance was determinate using one-way analysis of variance (ANOVA) followed by Dunnett’s multiple comparisons test. Results Two (SF1 and SF11) of twelve SFs, decreased migration and invasion compared to untreated control cells. Both SFs also altered actin cytoskeleton, changed cell morphology and reduced adhesion. SF1 and SF11 increased ROCK expression and the inhibition of this protein abolished the effects of both subfractions on migration, morphology and adhesion (but not on invasion). SF11 also increased Na + /K + -ATPase β2. Conclusion All components of the venom were evaluated and two SFs were able to impair human glioblastoma cells. The RhoA effector, ROCK, was shown to be involved in the mechanisms of both PnV components. It is possible that AMOG mediates the effect of SF11 on the invasion. Further investigations to isolate and biochemically characterize the molecules are underway.
Inadequate axonal regeneration is a common phenomenon occurring following acute injury to the central nervous system (CNS), and is often associated with permanent neurological deficits. The injured axons attempting to regenerate face the inhospitable environment of the CNS scar, which can hinder axonal growth and sprouting. In addition, in response to the insult, intense activation and infiltration of immune cells take place. Both the scar tissue and immune response, which have received a bad reputation in the context of CNS repair are essential for the overall recovery from CNS injuries, but are not optimally controlled. The glial scar contributes to protection of the spared neural tissues by establishing a boundary between damaged and salvageable tissue, and by educating the immune cells to promote the healing of the CNS tissue. In turn, the immune cells, and in particular the infiltrating macrophages, exert several functions at the lesion site, including resolution of the microglial response, control of scar tissue degradation, and production of growth factors; thereby, promoting neuronal survival, axonal regeneration, and tissue remodeling. As axonal regeneration and tissue remodeling are viewed as critical steps for the overall functional recovery following CNS injury, a detailed understanding of the mechanisms underlying the timely formation and degradation of the CNS scar, and its crosstalk with the inflammatory response, are of great importance, both biologically and clinically. GLIA 2014;62:1895–1904
During data analysis for a follow-up project, the authors found that the number of patients who received ocrelizumab infusions in the metadata underlying Fig. S3 E was incorrect.The corrected Fig. S3 with the revised panel E is provided here, and the legend has been changed as indicated in bold.In addition, in Table 1, the validation cohort data in the "Anti-CD20: before/after treatment" row now read "14/14" instead of "25/17" (shown in red text here).The conclusions regarding these data are unchanged.
PhTx2 is the most toxic fraction from the venom of the spider Phoneutria nigriventer, being responsible to sodium entry into cortical synaptosomes, increasing the release of neurotransmitters, such as l-glutamate (L-Glu) and; acetylcholine. In this study, we investigated the action of a toxin purified from; PhTx2 fraction, called PnTx2-6 or δ-CNTX-Pn2a, on L-Glu release from rat; brain cortex synaptosomes, as well as its ability to induce blood-brain barrier permeability. PnTx2-6 increased L-Glu release from rat cortical brain synaptosomes in a time- and dose-dependent manner (EC50 = ∼20 nM; Tm = 16min), as measured by a fluorimetric method. The increase of L-Glu by PnTx2-6 was inhibited by tetrodotoxin. And partially inhibited by EGTA. Calcium channel blockers ω-conotoxin MVIIC (P/Q-types) and ω-conotoxin GVIA (N-type), were able to reduce the PnTx2-6-induced release of L-Glu, while nifedipine (L-type) did not show any inhibition. These findings suggest that thew release of L-Glu by PnTx2-6 is due its primary action on sodium channels, well-known to be target of this toxin. PnTx2-6 is able to potentiate penile erection and this effect may be related with the release of l-glutamate from the CNS, besides a local effect on corpus carvenosum, as previously shown by our group. If L-Glu release and penile erection potentiation are indeed correlated, then this toxin should be able to cross the blood brain barrier (BBB). Results by immunoblotting assays indicated a change in the expression of proteins associated with the paracellular and transcellular transport at the blood-brain barrier, suggesting a BBB dysfunction mediated by PnTx2-6. Therefore, PnTx2-6 may induce the release l-glutamate in the central nervous system, when injected peripherally.
Abstract Immunomodulation has been considered an important approach in the treatment of malignant tumours. However, the modulation of innate immune cells remains an underexplored tool. Studies from our group demonstrated that the Phoneutria nigriventer spider venom (PnV) administration increased the infiltration of macrophage in glioblastoma, in addition to decreasing the tumour size in a preclinical model. The hypothesis that PnV would be modulating the innate immune system led us to the main objective of the present study: to elucidate the effects of PnV and its purified fractions on cultured macrophages. Results showed that PnV and the three fractions activated macrophages differentiated from bone marrow precursors. Further purification generated 23 subfractions named low weight (LW-1 to LW-12) and high weight (HW-1 to HW-11). LW-9 presented the best immunomodulatory effect. Treated cells were more phagocytic, migrated more, showed an activated morphological profile and induced an increased cytotoxic effect of macrophages on tumour cells. However, while M1-controls (LPS) increased IL-10, TNF-alpha and IL-6 release, PnV, fractions and subfractions did not alter any cytokine, with the exception of LW-9 that stimulated IL-10 production. These findings suggest that molecules present in LW-9 have the potential to be used as immunoadjuvants in the treatment of cancer.
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