Renata Graciele Zanon

Publications (5)11.51 Total impact

• Article: Interferon beta modulates major histocompatibility complex class I (MHC I) and CD3-zeta expression in PC12 cells.

  Rodrigo Fabrizzio Inácio, Renata Graciele Zanon, Liana Verinaud, Alexandre Leite Rodrigues de Oliveira
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  ABSTRACT: It has been demonstrated that the major histocompatibility complex of class I (MHC I) up regulation by exogenous treatment with interferon beta (IFNbeta) influences the glial reaction and synaptic elimination process. Therefore, the present study aimed to investigate the effects of IFNbeta treatment on the expression of MHC I, CD3-zeta (a subunit of MHC I receptor) and synaptic formation in PC12 cells, an in vitro model for studying the synaptic formation/elimination process. For this purpose, established cultures were subjected to IFNbeta (500 and 1000IU/ml) treatment for 5, 10 and 15 days. The cells were then fixed and processed for immunocytochemistry with antisera against MHC I (OX18), CD3-zeta and synaptophysin. The results were compared with control cultures only treated with basal medium. IFNbeta (500IU/ml) modulated the MHC I expression in PC12 cells, especially after 10 days of treatment. In this sense, IFNbeta induced MHC I as well as CD3-zeta up regulation. It was observed that the highest dose caused culture degeneration. Interestingly, differential regulation of MHC I was paralleled by enhancement in synaptic network remodeling. Altogether, the present data indicate that PC12 cells may be used as an in vitro model for studying MHC I modulation and synaptic plasticity. It also reinforced the role of IFNbeta on the synaptic elimination process.
  Neuroscience Letters 02/2012; 513(2):223-8. · 2.11 Impact Factor
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  Article: Interferon beta and glatiramer acetate induce proliferation of Schwann cells in vitro.

  Renata Graciele Zanon, Amauri Pierucci, Alexandre L R Oliveira
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  ABSTRACT: Techniques as well as substances capable of stimulating cultured Schwann cell (SC) proliferation are needed for future therapeutical applications. In this work, the effects of interferon beta (IFNbeta) and glatiramer acetate (GA) on SC cultures were tested, with interest on the growth curve and potential proliferative effects. Primary cultures were prepared from the sciatic nerves of neonatal rats and seeded onto culture plates. Such cells were then subjected to treatment with different doses of IFN beta (100, 500 and 1000 IU/ml) and of GA (1.2, 2.5 and 5.0 microg/ml) for five consecutive days. S100beta and DAPI double labeling was used in order to confirm the purity of the cultures. Both treatment with IFN and GA resulted in an increased number of cultured SCs. However, only IFN beta induced a statistically significant proliferative outcome. Such results indicate that addition of IFN beta to the culture medium is efficient in order to improve SC proliferation in vitro.
  Acta neurobiologiae experimentalis 02/2009; 69(1):146-52. · 2.11 Impact Factor
• Article: Glatiramer acetate positively influences spinal motoneuron survival and synaptic plasticity after ventral root avulsion.

  Juliana Milani Scorisa, Renata Graciele Zanon, Camila Marques Freria, Alexandre Leite Rodrigues de Oliveira
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  ABSTRACT: Avulsion of ventral roots induces degeneration of most axotomized motoneurons. At present there are no effective strategies to prevent such neuronal loss and to preserve the affected spinal circuits. Interestingly, changes in the spinal cord network also occur during the course of the experimental model of multiple sclerosis (experimental autoimmune encephalomyelitis-EAE). Glatiramer acetate (GA) significantly reduces the seriousness of the symptoms during the exacerbation of EAE. However, little is known about its effects on motoneurons. In the present study, we investigated whether GA has an influence on synapse plasticity and glial reaction after ventral root avulsion (VRA). Lewis rats were subjected to the avulsion of lumbar ventral roots and treated with GA. The animals were sacrificed after 14 days of treatment and the spinal cords processed for immunohistochemistry. A correlation between the synaptic changes and glial activation was obtained by performing immunolabeling against synaptophysin, GFAP and Iba-1. GA treatment preserved synaptophysin labeling, and significantly reduced the glial reaction in the area surrounding the axotomized motoneurons. After ventral root avulsion, GA treatment was also neuroprotective. The present results indicate that the immunomodulator GA has an influence on the stability of nerve terminals in the spinal cord, which may in turn contribute to future treatment strategies after proximal lesions to spinal motoneurons.
  Neuroscience Letters 01/2009; 451(1):34-9. · 2.11 Impact Factor
• Article: MHC class I upregulation is not sufficient to rescue neonatal alpha motoneurons after peripheral axotomy.

  Ana Carolina Linardi Munguia Payés, Renata Graciele Zanon, Amauri Pierucci, Alexandre L R Oliveira
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  ABSTRACT: Associated with neuronal death, profound synaptic changes occur in the spinal cord during the apoptotic process triggered after axotomy in neonatal rats. With respect to this, the major histocompatibility complex of class I (MHC class I) has recently emerged as a new mechanism related to synaptic stripping and plasticity. The present study investigated the impact of upregulating MHC class I expression by treatment with beta interferon (beta INF) on motoneuron survival, synaptic plasticity and astrogliosis after neonatal sciatic nerve injury. P2 rats were subjected to unilateral axotomy followed by three days of beta INF treatment. The results were analyzed by counting Nissl stained motoneurons, immunohistochemistry (anti-synaptophysin, MHC class I, GFAP and Iba-1) and transmission electron microscopy. INF treatment induced an increased expression of MHC class I, which resulted in a stronger synaptic elimination process in the spinal cord, as seen by the synaptophysin labeling. GFAP and Iba-1 upregulation were not significantly altered by the INF treatment, displaying the same degree of enhanced reactivity as compared to the placebo group. The ultrastructural analysis showed that, apart from the overall reduction of inputs in the neuropil, no statistical differences were present when comparing the INF and placebo treated animals. Also, neuronal survival was not altered by cytokine administration. The present results provide evidence that MHC class I upregulation after neonatal injury does not change the fate of lesioned motoneurons. In this way, the lack of neurotrophic support may cause broader synaptic loss, which superposes the more subtle effects of the upregulation of MHC class I.
  Brain research 09/2008; 1238:23-30. · 2.46 Impact Factor
• Article: Astrocyte reactivity influences the number of presynaptic terminals apposed to spinal motoneurons after axotomy.

  Amanda Emirandetti, Renata Graciele Zanon, Mario Sabha, Alexandre Leite Rodrigues de Oliveira
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  ABSTRACT: Although synaptic plasticity is a widespread phenomenon, the underlying mechanisms leading to its occurrence are virtually unknown. In this sense, glial cells, especially astrocytes, may have a role in network changes of the nervous system, influencing the retraction of boutons as well as providing a proper perisynaptic environment, thereby affecting the replacement of inputs. Interestingly, the glial reaction does vary between strains of rats and mice. In this sense, we present evidence that C57BL/6J and A/J isogenic mice present different astrocyte reactivity after a peripheral lesion in vivo as well as in vitro, by analyzing primary cell cultures. Such a difference in the glial reaction has a direct influence on in vivo number of pre-synaptic terminals and on in vitro synaptogenesis.
  Brain Research 07/2006; 1095(1):35-42. · 2.73 Impact Factor