BIT/SHPS-1 Promotes Antiapoptotic Effect of BDNF on Low Potassium-Induced Cell Death of Cultured Cerebellar Granule Neurons

Brain immunoglobulin-like molecule with tyrosine-based activation motifs/SHP substrate 1 (BIT/SHPS-1) is a neuronal adhesion molecule that is highly expressed in cerebellar granule neurons (CGNs); however its function in CGNs remains unclear. Our previous studies indicated that BIT/SHPS-1 is able to modulate the antiapoptotic effect of brain-derived neurotrophic factor (BDNF) on CNS neurons by cell type-specific mechanisms. In this article, we have studied the role of BIT/SHPS-1 in the antiapoptotic function of BDNF on low potassium (LK)-induced cell death of cultured CGNs which is an in vitro model system of neuronal apoptosis during brain development. Cultured rat CGNs were transduced with wild-type rat BIT/SHPS-1 (BIT/SHPS-1_WT), its 4F-mutant (BIT/SHPS-1_4F, in which all cytoplasmic tyrosine residues were substituted with phenylalanine), or nuclear localization signal-attached beta-galactosidase (NLS-LacZ, as control)-expressing adenoviruses. Expression of BIT/SHPS-1_WT and BIT/SHPS-1_4F alone did not affect steady-state cell viability. Tyrosine phosphorylation of BIT/SHPS-1 was only detected in BIT/SHPS-1_WT-expressing cultures in the presence and the absence of BDNF. When subjected to LK in the presence of BDNF, BIT/SHPS-1_WT- and BIT/SHPS-1_4F-expressing cultures showed a significant resistance to cell death, while the control virus-transfected culture did not. In addition, a phosphatidylinositol 3-kinase (PI3-K) inhibitor, LY294002, attenuated the antiapoptotic effect of BDNF on BIT/SHPS-1_WT-, and BIT/SHPS-1_4F-expressing cultures. These results demonstrated that in both tyrosine phosphorylation-independent and PI3-K-dependent manners, BIT/SHPS-1 promotes the antiapoptotic effect of BDNF on the LK-induced cell death of CGNs.     

Tyrosine phosphorylation of BIT on photic stimulation in the rat retina

BIT is a transmembrane glycoprotein with three immunoglobulin-like domains in its extracellular region and tyrosine phosphorylation sites in its cytosolic region. We have previously shown that BIT was tyrosine phosphorylated in the hypothalamic suprachiasmatic nucleus in response to light exposure during the dark period, and suggested that it was involved in the light entrainment of the circadian clock. To further investigate the function of BIT in the nervous system, we examined the effect of photic stimulation on its tyrosine phosphorylation in the rat retina. It was found that the tyrosine phosphorylation level of BIT in the retina was higher in the light period than in the dark period. In addition, a light stimulation during the dark period resulted in a rapid phosphorylation of BIT and a subsequent association of BIT with SHP-2. The phosphorylation state was quickly reverted when the light was turned off. The light-dependent phosphorylation of BIT was also observed in isolated cultured retinas, and this was blocked by a specific Src-family inhibitor, PP-2. Immunohistochemical study showed that BIT was highly enriched in the inner and outer plexiform layers in the retina, where the immunoreactivity to anti-SHP-2 antibody was also detected. These results suggest that tyrosine phosphorylation of BIT is involved in neuronal transmission in the retina.     

BIT/SHPS-1 enhances brain-derived neurotrophic factor-promoted neuronal survival in cultured cerebral cortical neurons

Brain-derived neurotrophic factor (BDNF) activates a variety of signaling molecules to exert various functions in the nervous system, including neuronal differentiation, survival, and regulation of synaptic plasticity. Previously, we have suggested that BIT/SHPS-1 (brain immunoglobulin-like molecule with tyrosine-based activation motifs/SHP substrate 1) is a substrate of Shp-2 and is involved in BDNF signaling in cultured cerebral cortical neurons. To elucidate the biological function of BIT/SHPS-1 in cultured cerebral cortical neurons in connection with its role in BDNF signaling, we generated recombinant adenovirus vectors expressing the wild type of rat BIT/SHPS-1 and its 4F mutant in which all tyrosine residues in the cytoplasmic domain of BIT/SHPS-1 were replaced with phenylalanine. Overexpression of wild-type BIT/SHPS-1, but not the 4F mutant, in cultured cerebral cortical neurons induced tyrosine phosphorylation of BIT/SHPS-1 itself and an association of Shp-2 with BIT/SHPS-1 even without addition of BDNF. We found that BDNF-promoted survival of cultured cerebral cortical neurons was enhanced by expression of the wild type and also 4F mutant, indicating that this enhancement by BIT/SHPS-1 does not depend on its tyrosine phosphorylation. BDNF-induced activation of mitogen-activated protein kinase was not altered by the expression of these proteins. In contrast, BDNF-induced activation of Akt was enhanced in neurons expressing wild-type or 4F mutant BIT/SHPS-1. In addition, LY294002, a specific inhibitor of phosphatidylinositol 3-kinase, blocked the enhancement of BDNF-promoted neuronal survival in both neurons expressing wild-type and 4F mutant BIT/SHPS-1. These results indicate that BIT/SHPS-1 contributes to BDNF-promoted survival of cultured cerebral cortical neurons, and that its effect depends on the phosphatidylinositol 3-kinase-Akt pathway. Our results suggest that a novel action of BIT/SHPS-1 does not occur through tyrosine phosphorylation of BIT/SHPS-1 in cultured cerebral cortical neurons.     

Identification of Major Binding Proteins and Substrates for the SH2-Containing Protein Tyrosine Phosphatase SHP-1 in Macrophages

The protein tyrosine phosphatase SHP-1 is a critical regulator of macrophage biology, but its detailed mechanism of action remains largely undefined. SHP-1 associates with a 130-kDa tyrosyl-phosphorylated species (P130) in macrophages, suggesting that P130 might be an SHP-1 regulator and/or substrate. Here we show that P130 consists of two transmembrane glycoproteins, which we identify as PIR-B/p91A and the signal-regulatory protein (SIRP) family member BIT. These proteins also form separate complexes with SHP-2. BIT, but not PIR-B, is in a complex with the colony-stimulating factor 1 receptor (CSF-1R), suggesting that BIT may direct SHP-1 to the CSF-1R. BIT and PIR-B bind preferentially to substrate-trapping mutants of SHP-1 and are hyperphosphorylated in macrophages from motheaten viable mice, which express catalytically impaired forms of SHP-1, indicating that these proteins are SHP-1 substrates. However, BIT and PIR-B are hypophosphorylated in motheaten macrophages, which completely lack SHP-1 expression. These data suggest a model in which SHP-1 dephosphorylates specific sites on BIT and PIR-B while protecting other sites from dephosphorylation via its SH2 domains. Finally, BIT and PIR-B associate with two tyrosyl phosphoproteins and a tyrosine kinase activity. Tyrosyl phosphorylation of these proteins and the level of the associated kinase activity are increased in the absence of SHP-1. Our data suggest that BIT and PIR-B recruit multiple signaling molecules to receptor complexes, where they are regulated by SHP-1 and/or SHP-2.     

Shp-2 positively regulates brain-derived neurotrophic factor-promoted survival of cultured ventral mesencephalic dopaminergic neurons through a brain immunoglobulin-like molecule with tyrosine-based activation motifs/Shp substrate-1

To examine the roles of Shp-2, a cytoplasmic tyrosine phosphatase, in neuronal survival, we generated and used recombinant adenoviruses expressing wild type and phosphatase-inactive (C/S), phosphatase domain-deficient (delta P) and constitutively active (D61A and E76A) mutants of Shp-2. We found that wild-type Shp-2 enhanced brain-derived neurotrophic factor (BDNF)-promoted survival of cultured ventral mesencephalic dopaminergic neurons. In contrast, the C/S and delta P mutants of Shp-2 did not affect survival. In addition, the constitutively active D61A and E76A mutants mimicked BDNF and promoted survival. Furthermore, to examine the effects of BIT/SHPS-1, a substrate of Shp-2, on the BDNF-promoted survival, we generated adenovirus vectors expressing wild-type BIT/SHPS-1 and its 4F mutant in which all tyrosine residues in the cytoplasmic domain of BIT/SHPS-1 were replaced with phenylalanine. We found that BDNF-promoted survival of cultured mesencephalic dopaminergic neurons was enhanced by expression of the 4F mutant but not of wild-type BIT/SHPS-1. In addition, we found that co-expression of wild-type BIT/SHPS-1 with Shp-2 significantly enhanced the survival-promoting effect of BDNF on cultured mesencephalic dopaminergic neurons. These results indicated that Shp-2 positively regulates the survival-promoting effect of BDNF on cultured ventral mesencephalic dopaminergic neurons. Dephosphorylation of BIT/SHPS-1 by Shp-2 may participate in BDNF-stimulated survival signaling.     

Tyrosine phosphorylation and association of BIT with SHP-2 induced by neurotrophins

BIT (brain immunoglobulin-like molecule with tyrosine-based activation motifs) is a membrane glycoprotein that has two cytoplasmic TAMs (tyrosine-based activation motifs). We previously reported that tyrosine-phosphorylated TAMs of BIT interact with the Src homology 2 domain-containing protein tyrosine phosphatase SHP-2 both in vitro and in transfected cells, and this association results in a potent stimulation of the phosphatase activity of SHP-2. Both BIT and SHP-2 are highly expressed in the mammalian brain, and they may play important roles in the regulation of synaptic function. In this study, we found that nerve growth factor (NGF) treatment of PC12 cells leads to the tyrosine phosphorylation of BIT and a subsequent complex formation between BIT and SHP-2. Furthermore, brain-derived neurotrophic factor (BDNF) and neurotrophin-3 (NT-3) also induced the tyrosine phosphorylation of BIT and the association with SHP-2 in primary cultured rat neurons. Our results suggest that the BIT-SHP-2 signaling pathway is a novel signal transduction mechanism of neurons that acts in response to neurotrophic factors such as NGF, BDNF, and NT-3.     

Immunodetection of Botrytis-specific Invertase in Infected Grapes

Invertase (β-fructofuranosidase, EC 3.2.1.26) activity was shown to be stimulated in grape berries after infection with Botrytis cinerea . By using organism-specific extraction methods, evidence was found proving that both partners contribute to the increase in activity. Qualitative analysis of the extracts by SDS–PAGE showed a new invertase species in the botrytised material, with a molecular weight similar to that of Botrytis invertase (BIT). A method allowing the preparative isolation of homogeneous invertase from liquid cultures of B. cinerea in only three steps (ethanol precipitation, DEAE anion exchange and hydroxyapatite chromatography) with 50% recovery was developed. BIT appeared to be strongly glycosylated; interestingly, the amount of glycan seemed to vary and had a remarkable influence on the chromatographic behaviour of the enzyme. After chemical deglycosylation with TFMS, the BIT peptide was used for the production of polyclonal antibodies in chickens (anti-BIT-IgY). The antibodies recognised glycosylated as well as deglycosylated BIT, a partial denaturation of the protein being necessary for reaction. This indicates that the deglycosylation procedure had been successful and that the antibodies were in fact directed to the peptide moiety. However, after a short incubation at 70°C, native BIT was detectable by anti-BIT-IgY, while still active. Western blotting with extracts of diseased berries confirmed the fungal origin of the new invertase form. The anti-BIT-IgY proved highly specific, although some cross-reaction with a protein in Monilia laxa extracts occurred. The importance of careful immunogen preparation in the production of specific antibodies, and the potential of BIT as a target molecule for the immunological detection of B. cinerea are discussed.     

ppGpp accumulation in Pseudomonas aeruginosa and Pseudomonas fluorescens subjected to nutrient limitation and biocide exposure

The effect of a commonly used biocide, 1,2-benzisothiazolin-3-one (BIT) on ppGpp accumulation in the pathogen, Pseudomonas aeruginosa PAO1, and an environmental isolate, Ps. fluorescens, was examined. It is concluded that BIT is able to induce a stringent response in Ps. aeruginosa and Ps. fluorescens, determined by the rapid accumulation of ppGpp following addition of BIT to exponentially-growing cells. Western blot analysis of whole-cell extracts with anti-RelA antibody demonstrated that both species contain a RelA homologue. This is the first report of a RelA-like protein in pseudomonads.     

The HIV-1 Vpu viroporin inhibitor BIT225 does not affect Vpu-mediated tetherin antagonism

Among its many roles, the HIV-1 accessory protein Vpu performs a viroporin function and also antagonizes the host cell restriction factor tetherin through its transmembrane domain. BIT225 is a small molecule inhibitor that specifically targets the Vpu viroporin function, which, in macrophages, resulted in late stage inhibition of virus release and decreased infectivity of released virus, a phenotype similar to tetherin-mediated restriction. Here, we investigated whether BIT225 might mediate its antiviral function, at least in part, via inhibition of Vpu-mediated tetherin antagonism. Using T-cell lines inducible for tetherin expression, we found that BIT225 does not exert its antiviral function by inhibiting Vpu-mediated tetherin downmodulation from the cell surface, the main site of action of tetherin activity. In addition, results from a bioluminescence resonance energy transfer (BRET) assay showed that the Vpu-tetherin interaction was not affected by BIT225. Our data provide support for the concept that tetherin antagonism and viroporin function are separable on the Vpu transmembrane and that viroporin function might be cell-type dependent. Further, this work contributes to the characterization of BIT225 as an inhibitor that specifically targets the viroporin function of Vpu.     

Effect of total flavonoid in rabdosia rubescens on tolerant mice models under cerebral anoxia

ObjectiveTo study the protective effect of total flavonoid in rabdosia rubescens on BIT model by brain ischemic tolerance (hereinafter BIT) model of mice.MethodBIT model is used to block bilateral common carotid arteries and to copy BIT model of mice. After 10 min of transient ischemia for rats in preconditioning group, the mice in the nimodipine group and naoluotong capsule group were given the total flavonoid in rabdosia rubescens (300 mg/kg, 150 mg/kg, 75 mg/kg) for gavage, sham operation group, ischemia/reperfusion injury (hereinafter IRI) group and BIT group were fed with the same volume of 0.5% sodium carboxymethyl cellulose (CMC) once a day for 5 days. After administration for 1 h on day 5 (120 h), the rats in the other groups except for the sham operation group were treated with blood flow block for 30 min and reperfusion for 22 h. The serum NSE level were measured and the brain NO content and NOS activity changes was measured to observe the histopathological changes of brain tissue.ResultsBIT models of mice and in rats were both successfully replicated. The total flavonoid in rabdosia rubescens can decrease the mortality of mice, decrease serum NSE level, increase the content of NO and the activity of NOS in the brain tissue of mice, and improve the pathological damage of cortex and hippocampus of mice.ConclusionThe total flavonoid in rabdosia rubescens can stimulate an endogenous protective mechanism by inducing the release of low levels of cytokines NO and NOS, which reduces the release of serum NSE, relieves the brain tissue ischemia-reperfusion injury, and further improves the protection effect of ischemic preconditioning on brain injury. The damage of brain tissue ischemia and reperfusion, and further improve the ischemia Protective effect of preconditioning on brain injury.     

Light-induced tyrosine phosphorylation of BIT in the rat suprachiasmatic nucleus

Circadian changes of protein tyrosine phosphorylation in the hypothalamic suprachiasmatic nucleus have been studied using rats maintained under 12-h light/ 12-h dark cycles as well as constant dark conditions. We found that tyrosine phosphorylation of BIT (brain immunoglobulin-like molecule with tyrosine-based activation motifs), a transmembrane glycoprotein of 90-95 kDa, was higher in the light period than in the dark period and was increased after light exposure in the dark period. Similar changes in tyrosine phosphorylation were observed under constant dark conditions, but its amplitude was weaker than that in 12-h light/12-h dark cycles. As the tyrosine-phosphorylated form of BIT is able to bind to the Src homology 2 domain of a protein tyrosine phosphatase, SHP-2, we examined association of these proteins in suprachiasmatic nucleus extracts and found that SHP-2 was coprecipitated with BIT in parallel with its tyrosine phosphorylation. These results suggest that tyrosine phosphorylation of BIT might be involved in light-induced entrainment of the circadian clock.     

Expression of CD47/integrin-associated protein induces death of cultured cerebral cortical neurons

The death and survival of neuronal cells are regulated by various signaling pathways during development of the brain and in neuronal diseases. Previously, we demonstrated that the neuronal adhesion molecule brain immunoglobulin-like molecule with tyrosine-based activation motifs/SHP substrate 1 (BIT/SHPS-1) is involved in brain-derived neurotrophic factor (BDNF)-promoted neuronal cell survival. Here, we report the apoptosis-inducing effect of CD47/integrin-associated protein (IAP), the heterophilic binding partner of BIT/SHPS-1, on neuronal cells. We generated a recombinant adenovirus vector expressing a neuronal form of CD47/IAP, and found that the expression of CD47/IAP by infection with CD47/IAP adenovirus induced the death of cultured cerebral cortical neurons. The numbers of TdT-mediated biotin-dUTP nick-end labelling (TUNEL)-positive neurons and of cells displaying apoptotic nuclei increased by expression of CD47/IAP. Neuronal cell death was prevented by the addition of the broad-spectrum caspase inhibitor Z-VAD-fmk. Furthermore, we observed that co-expression of CD47/IAP with BIT/SHPS-1 enhanced neuronal cell death, and that BDNF prevented it. These results suggest that CD47/IAP is involved in a novel pathway which regulates caspase-dependent apoptosis of cultured cerebral cortical neurons. CD47/IAP-induced death of cultured cortical neurons may be regulated by the interaction of CD47/IAP with BIT/SHPS-1 and by BDNF.     

Probenazole induces systemic acquired resistance in Arabidopsis with a novel type of action

Probenazole (PBZ; 3-allyloxy-1,2-benzisothiazole-1,1-dioxide), which is the active ingredient in Oryzemate, has been used widely in Asia to protect rice plants against the rice blast fungus Magnaporthe grisea. To study PBZ's mode of action, we analyzed its ability, as well as that of its active metabolite 1, 2-benzisothiazol-3 (2H)-one 1,1-dioxide (BIT) to induce defense gene expression and resistance in Arabidopsis mutants that are defective in various defense signaling pathways. Wild-type Arabidopsis treated with PBZ or BIT exhibited increased expression of several pathogenesis-related genes, increased levels of total salicylic acid (SA), and enhanced resistance to the bacterial pathogen Pseudomonas syringae pv. tomato DC 3000 and the oomycete pathogen Peronospora parasitica Emco5. The role of several defense signaling hormones, such as SA, ethylene and jasmonic acid (JA), in activating resistance following PBZ or BIT treatment was analyzed using NahG transgenic plants and etr1-1 and coi1-1 mutant plants, respectively. In addition, the involvement of NPR1, a key component in the SA signaling pathway leading to defense responses, was assessed. PBZ or BIT treatment did not induce disease resistance or PR-1 expression in NahG transgenic or npr1 mutant plants, but it did activate these phenomena in etr1-1 and coi 1-1 mutant plants. Thus SA and NPR1 appear to be required for PBZ- and BIT-mediated activation of defense responses, while ethylene and JA are not. Furthermore, our data suggest that PBZ and BIT comprise a novel class of defense activators that stimulate the SA/NPR1-mediated defense signaling pathway upstream of SA.     

Performance of a pilot-scale packed bed reactor for perchlorate reduction using a sulfur oxidizing bacterial consortium

A novel sulfur‐utilizing perchlorate reducing bacterial consortium successfully treated perchlorate (ClO) in prior batch and bench‐scale packed bed reactor (PBR) studies. This study examined the scale up of this process for treatment of water from a ClO and RDX contaminated aquifer in Cape Cod Massachusetts. A pilot‐scale upflow PBR (～250‐L) was constructed with elemental sulfur and crushed oyster shell packing media. The reactor was inoculated with sulfur oxidizing ClO reducing cultures enriched from a wastewater seed. Sodium sulfite provided a good method of dissolved oxygen removal in batch cultures, but was found to promote the growth of bacteria that carry out sulfur disproportionation and sulfate reduction, which inhibited ClO reduction in the pilot system. After terminating sulfite addition, the PBR successfully removed 96% of the influent ClO in the groundwater at an empty bed contact time (EBCT) of 12 h (effluent ClO of 4.2 µg L^?1). Simultaneous ClO and NO reduction was observed in the lower half of the reactor before reactions shifted to sulfur disproportionation and sulfate reduction. Analyses of water quality profiles were supported by molecular analysis, which showed distinct groupings of ClO and NO degrading organisms at the inlet of the PBR, while sulfur disproportionation was the primary biological process occurring in the top potion of the reactor. Biotechnol. Bioeng. 2012; 109:637–646. © 2011 Wiley Periodicals, Inc.     

Bridge-Induced Chromosome Translocation in Yeast Relies upon a Rad54/Rdh54-Dependent,Pol32-Independent Pathway

While in mammalian cells the genetic determinism of chromosomal translocation remains unclear, the yeast Saccharomyces cerevisiae has become an ideal model system to generate ad hoc translocations and analyze their cellular and molecular outcome. A linear DNA cassette carrying a selectable marker flanked by perfect homologies to two chromosomes triggers a bridge-induced translocation (BIT) in budding yeast, with variable efficiency. A postulated two-step process to produce BIT translocants is based on the cooperation between the Homologous Recombination System (HRS) and Break-Induced Replication (BIR); however, a clear indication of the molecular factors underlying the genetic mechanism is still missing. In this work we provide evidence that BIT translocation is elicited by the Rad54 helicase and completed by a Pol32-independent replication pathway. Our results demonstrate also that Rdh54 is involved in the stability of the translocants, suggesting a mitotic role in chromosome pairing and segregation. Moreover, when RAD54 is over-expressed, an ensemble of secondary rearrangements between repeated DNA tracts arise after the initial translocation event, leading to severe aneuploidy with loss of genetic material, which prompts the identification of fragile sites within the yeast genome.     

Relationship between Legionella pneumophila and Acanthamoeba polyphaga: physiological status and susceptibility to chemical inactivation.

Survival studies were conducted on Legionella pneumophila cells that had been grown intracellularly in Acanthamoeba polyphaga and then exposed to polyhexamethylene biguanide (PHMB), benzisothiazolone (BIT), and 5-chloro-N-methylisothiazolone (CMIT). Susceptibilities were also determined for L. pneumophila grown under iron-sufficient and iron-depleted conditions. BIT was relatively ineffective against cells grown under iron depletion; in contrast, iron-depleted conditions increased the susceptibilities of cells to PHMB and CMIT. The activities of all three biocides were greatly reduced against L. pneumophila grown in amoebae. PHMB (1 x MIC) gave 99.99% reductions in viability for cultures grown in broth within 6 h and no detectable survivors at 24 h but only 90 and 99.9% killing at 6 h and 24 h, respectively, for cells grown in amoebae. The antimicrobial properties of the three biocides against A. polyphaga were also determined. The majority of amoebae recovered from BIT treatment, but few, if any, survived CMIT treatment or exposure to PHMB. This study not only shows the profound effect that intra-amoebal growth has on the physiological status and antimicrobial susceptibility of L. pneumophila but also reveals PHMB to be a potential biocide for effective water treatment. In this respect, PHMB has significant activity, below its recommended use concentrations, against both the host amoeba and L. pneumophila.     

Relationship between Legionella pneumophila and Acanthamoeba polyphaga: physiological status and susceptibility to chemical inactivation.

Survival studies were conducted on Legionella pneumophila cells that had been grown intracellularly in Acanthamoeba polyphaga and then exposed to polyhexamethylene biguanide (PHMB), benzisothiazolone (BIT), and 5-chloro-N-methylisothiazolone (CMIT). Susceptibilities were also determined for L. pneumophila grown under iron-sufficient and iron-depleted conditions. BIT was relatively ineffective against cells grown under iron depletion; in contrast, iron-depleted conditions increased the susceptibilities of cells to PHMB and CMIT. The activities of all three biocides were greatly reduced against L. pneumophila grown in amoebae. PHMB (1 x MIC) gave 99.99% reductions in viability for cultures grown in broth within 6 h and no detectable survivors at 24 h but only 90 and 99.9% killing at 6 h and 24 h, respectively, for cells grown in amoebae. The antimicrobial properties of the three biocides against A. polyphaga were also determined. The majority of amoebae recovered from BIT treatment, but few, if any, survived CMIT treatment or exposure to PHMB. This study not only shows the profound effect that intra-amoebal growth has on the physiological status and antimicrobial susceptibility of L. pneumophila but also reveals PHMB to be a potential biocide for effective water treatment. In this respect, PHMB has significant activity, below its recommended use concentrations, against both the host amoeba and L. pneumophila.     

Impact of unilateral spatial neglect on chronic patient's post-stroke quality of life

Abstract

Background: Unilateral spatial neglect (USN) is the prevalent feature in patients with right-sided stroke. It is diagnosed through the behavior inattention test (BIT) and has a negative impact on patients affecting both their functional capacity and quality of life.

Objective: Here, we aimed to evaluate the impact of USN on the quality of life of patients in the chronic phase of stroke.

Methods: This is a cross-sectional study with stroke patients with USN. After confirming the presence of stroke through neuroimaging examinations and of USN through the BIT, patients’ quality of life was evaluated by using the EUROQOL scale. Spearman’s correlation was used to validate the correlation between patients’ USN and quality of life, with a p?<?.05 representing significant results.

Results: Eighteen individuals were included. When correlating the value of each domain of the EUROQOL scale with the results of the BIT, we observed a negative correlation between mobility (r?=?–0.97; p?=?.000), self-care (r?=?–0.82; p?=?.013), usual activities (r?=?–0.87; p?=?.005); pain or discomfort (r?=?–0.88; p?=?.004), anxiety or depression (r?=?–0.97; p?=?.000), and EUROQOL total score (r?=?–0.97, p?=?.000).

Conclusion: After a correlation between the overall EUROQOL and BIT scores, we suggest that the higher the USN degree is in stroke patients, the worse their perceived quality of life tends to be.     

Iron balance in the common vampire bat Desmodus rotundus

1. Total body iron in the common vampire bat was 80 +/- 67 mg Fe/kg body wt (mean +/- SD). 2. Mean (+/- SD) iron absorption as measured by the double isotope method was 0.068 +/- 0.0032% Fe. A typical adult bat ingests 6.1 mg Fe/day (Morton & Wimsatt, 1980) of which approximately 4.2 microgram Fe is absorbed. 3. Body iron turnover (BIT) was estimated from the decrease in specific radioactivity of the blood over more than a year. The mean (+/- SD) of the half-life of iron turnover was 379 +/- 101 days and that of the estimate of BIT. 0.14 +/- 0.04% TBI/day. This is equivalent to a loss of approximately 4.6 microgram Fe/day. 4. The common vampire bat maintains iron balance by severely limiting the percentage of iron absorbed from its very high iron diet.