STI1 antagonizes cytoskeleton collapse mediated by small GTPase Rnd1 and regulates neurite growth.

Rnd proteins comprise a branch of the Rho family of small GTP-binding proteins, which have been implicated in rearrangements of the actin cytoskeleton and microtubule dynamics. Particularly in the nervous system, Rnd family proteins regulate neurite formation, dendrite development and axonal branching. A secreted form of the co-chaperone Stress-Inducible Protein 1 (STI1) has been described as a prion protein partner that is involved in several processes of the nervous system, such as neurite outgrowth, neuroprotection, astrocyte development, and the self-renewal of neural progenitor cells. We show that cytoplasmic STI1 directly interacts with the GTPase Rnd1. This interaction is specific for the Rnd1 member of the Rnd family. In the COS collapse assay, overexpression of STI1 prevents Rnd1-plexin-A1-mediated cytoskeleton retraction. In PC-12 cells, overexpression of STI1 enhances neurite outgrowth in cellular processes initially established by Rnd1. Therefore, we propose that STI1 participates in Rnd1-induced signal transduction pathways that are involved in the dynamics of the actin cytoskeleton.

The multiple functions of the co-chaperone stress inducible protein 1.

Stress inducible protein 1 (STI1) is a co-chaperone acting with Hsp70 and Hsp90 for the correct client proteins' folding and therefore for the maintenance of cellular homeostasis. Besides being expressed in the cytosol, STI1 can also be found both in the cell membrane and the extracellular medium playing several relevant roles in the central nervous system (CNS) and tumor microenvironment. During CNS development, in association with cellular prion protein (PrPc), STI1 regulates crucial events such as neuroprotection, neuritogenesis, astrocyte differentiation and survival. In cancer, STI1 is involved with tumor growth and invasion, is undoubtedly a pro-tumor factor, being considered as a biomarker and possibly therapeutic target for several malignancies. In this review, we discuss current knowledge and new findings on STI1 function as well as its role in tissue homeostasis, CNS and tumor progression.

PPAR-γ agonist pioglitazone reduces microglial proliferation and NF-κB activation in the substantia nigra in the 6-hydroxydopamine model of Parkinson's disease.

BACKGROUND: Peroxisome proliferator-activated receptor γ (PPAR-γ) agonists have received much attention in research because of their neuroprotective and anti-inflammatory effects that reduce cell death and halt the progression of neurodegeneration. Thus, this study observed the pioglitazone effects on the main inflammatory markers after 6-hydroxydopamine (6-OHDA) lesion. METHODS: The effects of a 5-day administration of the PPAR-γ agonist pioglitazone (30 mg/kg) in male Wistar rats that received bilateral intranigral infusions of 6-OHDA. After surgery, the rats were evaluated in the open-field test on days 1,7,14, and 21. Immediately after the behavioral tests on day 21, the rats were euthanized, and the substantia nigra was removed to analyze the expression of nuclear factor κB (NF-κB) and IκB by western blot. To immunohistochemical, animals were intracardially perfused, with brain removal that was frozen and sectioned, being selected slices of the SNc region to detect tyrosine hydroxylase (TH) immunoreactivity, microglia activation (Iba-1) and NF-κB translocation in the nucleus. RESULTS: Pioglitazone protected rats against hypolocomotion and 6-OHDA-induced dopaminergic neurodegeneration on day 7. Decreases in the microglial activation and the NF-κB expression were observed, and the p65 activation was inhibited. CONCLUSIONS: These results suggest that pioglitazone may be a potential adjuvant for the treatment of Parkinson`s disease because of its effects on pathological markers of the progression of neurodegeneration.

Repeated intranigral MPTP administration: a new protocol of prolonged locomotor impairment mimicking Parkinson's disease.

Different Parkinson's disease (PD) animal models reproduce the early phase of the disease, which deny the possible existence of a synergic effect of consecutive insults to the dopaminergic neurons. We proposed a novel protocol of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) nigrostriatal lesion, which consists in repeated MPTP intranigral administrations intending to differentiate effects of a single lesion in relation to repeated lesions. For this purpose, a schedule of 3-day intervals between the MPTP administrations, totalizing 3 infusions in 9 days were adopted. A persistent locomotor deficit was produced after the 2nd infusion, remaining until the last time-point. Tyrosine hydroxylase (TH) immunoreactive neurons were reduced in 50% 1 day after the 1st infusion and the neuronal loss remained constant even after the 2nd and 3rd MPTP infusions. In parallel, (TH) protein expression in the substantia nigra pars compacta (SNpc) revealed to be a sensitive target for MPTP, once it was found to be down-regulated immediately after the 1st MPTP exposure until the last time-point. These findings corroborate the concept of an early phase model of PD elicited by MPTP even when this neurotoxin was used according to the protocol currently proposed. The current protocol provided relevant insights about TH expression and irreversible locomotor impairment.

Identification of novel putative-binding proteins for cellular prion protein and a specific interaction with the STIP1 homology and U-Box-containing protein 1.

Prion diseases involve the conversion of the endogenous cellular prion protein, PrP(C), into a misfolded infectious isoform, PrP(Sc). Several functions have been attributed to PrP(C), and its role has also been investigated in the olfactory system. PrP(C) is expressed in both the olfactory bulb (OB) and olfactory epithelium (OE) and the nasal cavity is an important route of transmission of diseases caused by prions. Moreover, Prnp(-/-) mice showed impaired behavior in olfactory tests. Given the high PrP(C) expression in OE and its putative role in olfaction, we screened a mouse OE cDNA library to identify novel PrP(C)-binding partners. Ten different putative PrP(C) ligands were identified, which were involved in functions such as cellular proliferation and apoptosis, cytoskeleton and vesicle transport, ubiquitination of proteins, stress response, and other physiological processes. In vitro binding assays confirmed the interaction of PrP(C) with STIP1 homology and U-Box containing protein 1 (Stub1) and are reported here for the first time. Stub1 is a co-chaperone with ubiquitin E3-ligase activity, which is associated with neurodegenerative diseases characterized by protein misfolding and aggregation. Physiological and pathological implications of PrP(C)-Stub1 interaction are under investigation. The PrP(C)-binding proteins identified here are not exclusive to the OE, suggesting that these interactions may occur in other tissues and play general biological roles. These data corroborate the proposal that PrP(C) is part of a multiprotein complex that modulates several cellular functions and provide a platform for further studies on the physiological and pathological roles of prion protein.

Quinolone resistance and ornithine decarboxylation activity in lactose-negative Escherichia coli.

Quinolones and fluoroquinolones are widely used to treat uropathogenic Escherichia coli infections. Bacterial resistance to these antimicrobials primarily involves mutations in gyrA and parC genes. To date, no studies have examined the potential relationship between biochemical characteristics and quinolone resistance in uropathogenic E. coli strains. The present work analyzed the quinolone sensitivity and biochemical activities of fifty-eight lactose-negative uropathogenic E. coli strains. A high percentage of the isolates (48.3%) was found to be resistant to at least one of the tested quinolones, and DNA sequencing revealed quinolone resistant determining region gyrA and parC mutations in the multi-resistant isolates. Statistical analyses suggested that the lack of ornithine decarboxylase (ODC) activity is correlated with quinolone resistance. Despite the low number of isolates examined, this is the first study correlating these characteristics in lactose-negative E. coli isolates.

Saxitoxins induce cytotoxicity, genotoxicity and oxidative stress in teleost neurons in vitro.

The aim of this study was establish a protocol for isolation and primary culture of neurons from tropical freshwater fish species Hoplias malabaricus for assessment of the effects of neurotoxic substances as saxitoxins (STXs). Cells from brain of H. malabaricus were treated with different concentrations of trypsin, dispase and papain for tissue dissociation. Cells type was separated by cellular gradient and basic fibroblast growth factor (bFGF) supplement nutrition media were added. The dissociated cells were plated with medium and different STXs concentrations and the toxic cellular effects such as oxidative stress, neurotoxicity, and genotoxicity and apoptosis process were evaluated. Cultures treated with bFGF showed the greatest adherence, survival and cellular development. STXs increased specific activity of glutathione peroxidase and lipoperoxidation levels, were cytotoxic and genotoxic indicated by the comet assay. Although the STXs effects due the blockage of sodium channels is reported to be reversible, the time exposure and concentration of STXs suggested cellular injuries which can lead to neuropathology. The establishment of primary neuronal culture protocol enables new applications for neurotoxicological assessments.

Flow cytometric immune profiling of specific-pathogen-free chickens before and after infectious challenges.

Broilers and layer chickens have been intensively selected for production parameters. This selection has affected immune capacity. Consequently, the fine-tuning of immune responses is becoming important for maximum productivity. Flow cytometry is a recurrent technology used for the immunophenotyping of birds. Studies, however, have focused on the mechanism of specific diseases or have used animals whose immunological condition could be biased-by vaccination or environmental stressors, for example. The aim of this study was to evaluate the immune status of specific-pathogen-free birds across different age ranges to characterize the natural changes that occur over time. Additionally, specific-pathogen-free chickens were challenged with four infectious agents, allowing identification of the subpopulations of peripheral blood immune cells that are consistently altered under various conditions. Several lymphocyte subsets vary naturally with aging, so the interpretation of results using animals of different age ranges must proceed with care. Parameters such as CD8(+)CD28(-), CD8αα(+), CD4(+)CD8(+), and CD8(+)TCRVß1(+) have been shown to be valuable in understanding immune changes during disease. The use of these data allows a determination of the consistency of cytometric parameters under various conditions, which should ease the interpretation of immunophenotyping and the future application of cytometric analysis in the poultry industry.

Quinolone resistance and ornithine decarboxylation activity in lactose-negative Escherichia coli

Quinolones and fluoroquinolones are widely used to treat uropathogenic Escherichia coli infections. Bacterial resistance to these antimicrobials primarily involves mutations in gyrA and parC genes. To date, no studies have examined the potential relationship between biochemical characteristics and quinolone resistance in uropathogenic E. coli strains. The present work analyzed the quinolone sensitivity and biochemical activities of fifty-eight lactose-negative uropathogenic E. coli strains. A high percentage of the isolates (48.3%) was found to be resistant to at least one of the tested quinolones, and DNA sequencing revealed quinolone resistant determining region gyrA and parC mutations in the multi-resistant isolates. Statistical analyses suggested that the lack of ornithine decarboxylase (ODC) activity is correlated with quinolone resistance. Despite the low number of isolates examined, this is the first study correlating these characteristics in lactose-negative E. coli isolates.

Interaçäo da proteína prion celular com laminina e STI-1 e suas possíveis implicações biológicas / Cellular prion protein interaction with laminin and STI-1 and its possible biological implications

A conversäo da proteína príon celular (PrPc) em sua isoforma anormal PrPsc está associada a uma série de doenças neurodegenerativas, genericamente designadas por doenças priônicas. Embora a literatura tenha enfatizado o estudo do PrPsc e o mecanismo de propagaçäo das doenças de príon, pouco tem sido feito para o entendimento do papel fisiológico do PrPc. Em 1997 nosso grupo descreveu um receptor/ligante para o PrPc utilizando o princípio da hidropaticidade complementar. Neste trabalho isolamos e identificamos este ligante de PrPc como sendo a STI-1 (Stress Inducible Protein-1). In vitro, a STI-1 interage com o PrPc de maneira específica, saturável e com alta afinidade (Kd=8x10-8M)...