Angiotensin (1-7) contributes to nitric oxide tonic inhibition of vasopressin release during hemorrhagic shock in acute ethanol intoxicated rodents

Aims

Acute ethanol intoxication (AEI) attenuates the arginine vasopressin (AVP) response to hemorrhage leading to impaired hemodynamic counter-regulation and accentuated hemodynamic stability. Previously we identified that the ethanol-induced impairment of circulating AVP concentrations in response to hemorrhage was the result of augmented central nitric oxide (NO) inhibition. The aim of the current study was to examine the mechanisms underlying ethanol-induced up-regulation of paraventricular nucleus (PVN) NO concentration. Angiotensin (ANG) (1-7) is an important mediator of NO production through activation of the Mas receptor. We hypothesized that Mas receptor inhibition would decrease central NO concentration and thus restore the rise in circulating AVP levels during hemorrhagic shock in AEI rats.

Main methods

Conscious male Sprague–Dawley rats (300–325 g) received a 15 h intra-gastric infusion of ethanol (2.5 g/kg + 300 mg/kg/h) or dextrose prior to a fixed-pressure (~ 40 mm Hg) 60 min hemorrhage. The Mas receptor antagonist A-779 was injected through an intracerebroventricular (ICV) cannula 15 min prior to hemorrhage.

Key findings

PVN NOS activity and NO were significantly higher in AEI compared to DEX-treated controls at the completion of hemorrhage. ICV A-779 administration decreased NOS activity and NO concentration, partially restoring the rise in circulating AVP level at completion of hemorrhage in AEI rats.

Significance

These results suggest that Mas receptor activation contributes to the NO-mediated inhibitory tone of AVP release in the ethanol-intoxicated hemorrhaged host.     

β-Glucan from Saccharomyces cerevisiae reduces lipopolysaccharide-induced inflammatory responses in RAW264.7 macrophages

Background

β-Glucans obtained from fungi, such as baker's yeast (Saccharomyces cerevisiae)-derived β-glucan (BBG), potently activate macrophages through nuclear factor κB (NFκB) translocation and activation of its signaling pathways. The mechanisms by which β-glucans activate these signaling pathways differ from that of lipopolysaccharide (LPS). However, the effects of β-glucans on LPS-induced inflammatory responses are poorly understood. Here, we examined the effects of BBG on LPS-induced inflammatory responses in RAW264.7 mouse macrophages.

Methods

We explored the actions of BBG in RAW264.7 macrophages.

Results

BBG inhibited LPS-stimulated nitric oxide (NO) production in RAW264.7 macrophages by 35–70% at concentrations of 120–200 μg/ml. BBG also suppressed mRNA and protein expression of LPS-induced inducible NO synthase (iNOS) and mitogen-activated protein kinase phosphorylation, but not NFκB activation. By contrast, a neutralizing antibody against dectin-1, a β-glucan receptor, did not affect BBG-mediated inhibition of NO production. Meanwhile, BBG suppressed Pam3CSK-induced NO production. Moreover, BBG suppressed LPS-induced production of pro-and anti-inflammatory cytokines, including interleukin (IL)-1α, IL-1ra, and IL-27.

Conclusions

Our results indicate that BBG is a powerful inhibitor of LPS-induced NO production by downregulating iNOS expression. The mechanism involves inactivation of mitogen-activated protein kinase and TLR2 pathway, but is independent of dectin-1.

General significance

BBG might be useful as a novel agent for the chemoprevention of inflammatory diseases.     

Electrochemical study of the intracellular transduction of vascular endothelial growth factor induced nitric oxide synthase activity using a multi-channel biocompatible microelectrode array

Background

Nitric oxide (NO) plays a major role in physiology as a biological mediator. NO has been identified in nervous, immune and vascular systems and is a critical parameter in numerous pathologies, such as cancer. This article describes the electrochemical biomeasurements of NO synthase (NOS) activity from cultured endothelial cells using a multiple microelectrode array.

Methods

Firstly, the effect of biocompatible fibronectin coating on electrochemical measurements was investigated. Secondly, endothelial cells were deposited on the fibronectin coated sensor and NO release was triggered with vascular endothelial growth factor (VEGF). N^G-nitro-l-arginine methyl ester (L-NAME) was used as an inhibitor of NO production, and different kinase blockers were investigated. Change in NOS activity was quantified using differential pulse voltammetry before and after addition of VEGF.

Results

Our results show that carefully applied layers of fibronectin have a very limited effect on electrochemistry and that VEGF induces an increase in NOS activity that is mainly mediated through the phosphatidylinositol 3 kinase (PI-3), and not by the extracellular signal-regulated kinases 1/2. Results obtained using electrochemical sensors were supported by wound healing assay demonstrating the critical role of phosphatidylinositol 3 kinase and extracellular signal-regulated kinases 1/2 for angiogenesis.

Conclusion

Electrochemical study of the intracellular transduction of the VEGF signal leading to NO synthesis was achieved, showing the critical role of PI-3 kinase.

General significance

This study presents an electrochemical sensor allowing measurements of NOS activity in cell cultures and tissue samples.     

The biomechanical properties of canine skin measured in situ by uniaxial extension

Introduction

A uniaxial extension system was setup to analyze the mechanical properties of dog skin.

Material and methods

Pads were glued onto dog skin with constant reproducible geometrical parameters and the extension force was measured as a function of the extension values. Forty-one sites (82 cycling tests) were investigated in situ on 11 canine cadavers, half of them after surgically isolating the test area from the surrounding skin. Series of loading-unloading cycles of up to 5 N or 10 N or both loads were performed on each site. The elastic properties and the dissipative effects were characterized respectively by evaluating the secant Rigidity at maximum loads and the Fraction of dissipated energy.

Results

A hysteresis phenomenon, implying the need for preconditioning to attain equilibrium cycles, was apparent during mechanical characterization. Polynomial expressions were used to relate the measured Rigidities and the Fractions of dissipated energy with or without sample isolation. The latter were less affected by isolation. The ratios between the Rigidities at 5 N to those at 10 N displayed non-linearity in the investigated extension range in contrary to the Fractions of dissipated energy.

Discussion/conclusion

The parameters confirming the dissipative non-linear elastic behavior of dog skin were identified and the correlation between Rigidity and Fraction of dissipated energy on isolated and non-isolated skin samples was quantitatively determined. This extension setup can now be used as a “true in vivo” mapping tool to determine the mechanical characteristics of the skin during healing processes or during the study of Human skin disease with the dog as an animal model.     

Organic bioelectronics for electronic-to-chemical translation in modulation of neuronal signaling and machine-to-brain interfacing

Background

A major challenge when creating interfaces for the nervous system is to translate between the signal carriers of the nervous system (ions and neurotransmitters) and those of conventional electronics (electrons).

Scope of review

Organic conjugated polymers represent a unique class of materials that utilizes both electrons and ions as charge carriers. Based on these materials, we have established a series of novel communication interfaces between electronic components and biological systems. The organic electronic ion pump (OEIP) presented in this review is made of the polymer–polyelectrolyte system poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) (PEDOT:PSS). The OEIP translates electronic signals into electrophoretic migration of ions and neurotransmitters.

Major conclusions

We demonstrate how spatio-temporally controlled delivery of ions and neurotransmitters can be used to modulate intracellular Ca^2 + signaling in neuronal cells in the absence of convective disturbances. The electronic control of delivery enables strict control of dynamic parameters, such as amplitude and frequency of Ca^2 + responses, and can be used to generate temporal patterns mimicking naturally occurring Ca^2 + oscillations. To enable further control of the ionic signals we developed the electrophoretic chemical transistor, an analog of the traditional transistor used to amplify and/or switch electronic signals. Finally, we demonstrate the use of the OEIP in a new “machine-to-brain” interface by modulating brainstem responses in vivo.

General significance

This review highlights the potential of communication interfaces based on conjugated polymers in generating complex, high-resolution, signal patterns to control cell physiology. We foresee widespread applications for these devices in biomedical research and in future medical devices within multiple therapeutic areas. This article is part of a Special Issue entitled Organic Bioelectronics—Novel Applications in Biomedicine.     

Investigating anticancer properties of the sesquiterpene ferutinin on colon carcinoma cells,in vitro and in vivo

Aims

In this research, ferutinin was evaluated for its possible cytotoxic and apoptotic inducing effects in vitro and in vivo.

Main methods

To determine IC₅₀ values of ferutinin, CT26, HT29 and NIH/3T3 cells were treated with different concentrations of ferutinin. In addition to morphological changes in cells, the DNA damage was studied using DAPI staining, comet assay and PI staining. Ferutinin was also tested for its in vivo activity.

Key findings

Analyses of cell survival by MTT assay showed that the IC₅₀ values of ferutinin on CT26 and HT29 cells were 26 and 29 μg/ml, respectively, while after treating nontumoural mouse cells even with 50 μg/ml ferutinin, 70% of cells was still surviving. The results of DAPI staining and comet assay revealed that ferutinin significantly induced DNA damage in treated cells. Induction of sub-G₁ peak after PI staining was also indicative of apoptotic effects of ferutinin in cancerous cells. In vivo studies showed a significant regression in tumour size in mice treated with ferutinin as compared to control groups. Its antitumour effects were very similar to the cisplatin treated group. Histological studies demonstrated that apoptosis rate in tumour cells was increased in comparison to tumour cells in control mice without ferutinin treatment. Interestingly, haematoxylin and eosin staining showed no damage in the spleen and liver of ferutinin treated mice.

Significance

As ferutinin showed less toxic effects in nontumoural cells, and induced its effects via apoptosis induction, it could be considered as an effective anticancer agent for future preclinical experiments.     

Spectrofluorimetric analysis of the interaction of amyloid peptides with neuronal nitric oxide synthase: Implications in Alzheimer's disease

Background

The deposition of aggregated β-amyloid peptide senile plaques and the accumulation of arginine within the astrocytes in the brain of an Alzheimer's patient are classic observations in the neuropathology of the disease. It would be logical, in the aetiology and pathogenesis, to investigate arginine-metabolising enzymes and their intimate association with amyloid peptides.

Methods

Neuronal nitric oxide synthase (nNOS) was isolated, purified and shown, through fluorescence quenching spectroscopy and fluorescence resonance energy transfer (FRET), to interact with structural fragments of Aβ_1–40 and be catalytic towards amyloid fibril formation.

Results

Only one binding site on the enzyme was available for binding. Two amyloid peptide fragments of Aβ_1–40 (Aβ_17–28 and Aβ_25–35) had Stern–Volmer values (K_SV) of 0.111 μM⁻¹ and 0.135 μM⁻¹ indicating tight binding affinity to nNOS and easier accessibility to fluor molecules during binding. The polarity of this active site precludes binding of the predominantly hydrophobic amyloid peptide fragments contained within Aβ_17–28 and within two glycine zipper motifs [G-X-X-X-G-X-X-X-G] [Aβ_29–37] and bind to the enzyme at a site remote to the active region.

Conclusions

The interaction and binding of Aβ_17–28 and Aβ_25–35 to nNOS causes the movement of two critical tryptophan residues of 0.77 nm and 0.57 nm respectively towards the surface of the enzyme.

General significance

The binding of Aβ-peptide fragments with nNOS has been studied by spectrofluorimetry. The information and data presented should contribute towards understanding the mechanism for deposition of aggregated Aβ-peptides and fibrillogenesis in senile plaques in an AD brain.     

Oral supplementation with a combination of l-citrulline and l-arginine rapidly increases plasma l-arginine concentration and enhances NO bioavailability

Background

Chronic supplementation with l-citrulline plus l-arginine has been shown to exhibit anti-atherosclerotic effects. However, the short-term action of this combination on the nitric oxide (NO)–cGMP pathway remains to be elucidated. The objective of the present study was to investigate the acute effects of a combination of oral l-citrulline and l-arginine on plasma l-arginine and NO levels, as well as on blood circulation.

Methods

Rats or New Zealand white rabbits were treated orally with l-citrulline, or l-arginine, or a combination of each at half dosage. Following supplementation, plasma levels of l-arginine, NO_x, cGMP and changes in blood circulation were determined sequentially.

Results

l-Citrulline plus l-arginine supplementation caused a more rapid increase in plasma l-arginine levels and marked enhancement of NO bioavailability, including plasma cGMP concentrations, than with dosage with the single amino acids. Blood flow in the central ear artery in rabbits was also significantly increased by l-citrulline plus l-arginine administration as compared with the control.

Conclusion

Our data show for the first time that a combination of oral l-citrulline and l-arginine effectively and rapidly augments NO-dependent responses at the acute stage. This approach may have clinical utility for the regulation of cardiovascular function in humans.     

Tension to passively cinch the mitral annulus through coronary sinus access: An ex vivo study in ovine model

Introduction

The transcatheter mitral valve repair (TMVR) technique utilizes a stent to cinch a segment of the mitral annulus (MA) and reduces mitral regurgitation. The cinching mechanism results in reduction of the septal–lateral distance. However, the mechanism has not been characterized completely. In this study, a method was developed to quantify the relation between cinching tension and MA area in an ex vivo ovine model.

Method

The cinching tension was measured from a suture inserted within the coronary sinus (CS) vessel with one end tied to the distal end of the vessel and the other end exited to the CS ostium where it was attached to a force transducer on a linear stage. The cinching tension, MA area, septal–lateral (S–L) and commissure–commissure (C–C) diameters and leakage was simultaneously measured in normal and dilated condition, under a hydrostatic left ventricular pressure of 90 mmHg.

Results

The MA area was increased up to 22.8% after MA dilation. A mean tension of 2.1±0.5 N reduced the MA area by 21.3±5.6% and S–L diameter by 24.2±5.3%. Thus, leakage was improved by 51.7±16.2% following restoration of normal MA geometry.

Conclusion

The cinching tension generated by the suture acts as a compensation force in MA reduction, implying the maximum tension needed to be generated by annuloplasty device to restore normal annular size. The relationship between cinching tension and the corresponding MA geometry will contribute to the development of future TMVR devices and understanding of myocardial contraction function.     

Characterization of substrate and product specificity of the purified recombinant glycogen branching enzyme of Rhodothermus obamensis

Background

Glycogen and starch branching enzymes catalyze the formation of α(1 → 6) linkages in storage polysaccharides by rearrangement of preexisting α-glucans. This reaction occurs through the cleavage of α(1 → 4) linkage and transfer in α(1 → 6) of the fragment in non-reducing position. These enzymes define major elements that control the structure of both glycogen and starch.

Methods

The kinetic parameters of the branching enzyme of Rhodothermus obamensis (RoBE) were established after in vitro incubation with different branched or unbranched α-glucans of controlled structure.

Results

A minimal chain length of ten glucosyl units was required for the donor substrate to be recognized by RoBE that essentially produces branches of DP 3–8. We show that RoBE preferentially creates new branches by intermolecular mechanism. Branched glucans define better substrates for the enzyme leading to the formation of hyper-branched particles of 30–70 nm in diameter (dextrins). Interestingly, RoBE catalyzes an additional α-4-glucanotransferase activity not described so far for a member of the GH13 family.

Conclusions

RoBE is able to transfer α(1 → 4)-linked-glucan in C4 position (instead of C6 position for the branching activity) of a glucan to create new α(1 → 4) linkages yielding to the elongation of linear chains subsequently used for further branching. This result is a novel case for the thin border that exists between enzymes of the GH13 family.

General significance

This work reveals the original catalytic properties of the thermostable branching enzyme of R. obamensis. It defines new approach to produce highly branched α-glucan particles in vitro.     

New insights into molecular mechanism(s) underlying the presynaptic action of nitric oxide on GABA release

Background

Nitric oxide (NO) is an important presynaptic modulator of synaptic transmission. Here, we aimed to correlate the release of the major inhibitory neurotransmitter GABA with intracellular events occurring in rat brain axon terminals during their exposure to NO in the range of nanomolar–low micromolar concentrations.

Methods

Using [³H]GABA and fluorescent dyes (Fluo 4-AM, acridine orange and rhodamine 6G), the following parameters were evaluated: vesicular and cytosolic GABA pools, intracellular calcium concentration, synaptic vesicle acidification, and mitochondrial membrane potential. Diethylamine NONOate (DEA/NO) and S-nitroso-N-acetylpenicillamine (SNAP) were used as NO donors.

Results

DEA/NO and SNAP (in the presence of dithiothreitol (DTT)) stimulated external Ca^2 +-independent [³H]GABA release, which was not attributed to a rise in intracellular calcium concentration. [³H]GABA release coincided with increasing GABA level in cytosol and decreasing the vesicular GABA content available for exocytotic release. There was a strong temporal correlation between NO-induced increase in cytosolic [GABA] and dissipation of both synaptic vesicle proton gradient and mitochondrial membrane potential. Dissipation was reversible, and recovery of both parameters correlated in time with re-accumulation of [³H]GABA into synaptic vesicles. The molar ratio of DTT to SNAP determined the rate and duration of the recovery processes.

Conclusions

We suggest that NO can stimulate GABA release via GABA transporter reversal resulting from increased GABA levels in cytosol. The latter is reversible and appears to be due to S-nitrosylation of key proteins, which affect the energy status of the pre-synapse.

General significance

Our findings provide new insight into molecular mechanism(s) underlying the presynaptic action of nitric oxide on inhibitory neurotransmission.     

Rapid uptake of lipophilic triphenylphosphonium cations by mitochondria in vivo following intravenous injection: Implications for mitochondria-specific therapies and probes

Background

Mitochondrial dysfunction contributes to a range of pathologies, consequently there is a need to monitor mitochondrial function and to intervene pharmacologically to prevent mitochondrial damage. One approach to this is to deliver antioxidants, probes and pharmacophores to mitochondria by conjugation to the lipophilic triphenylphosphonium (TPP) cation that is taken up selectively by mitochondria driven by the membrane potential.

Conclusions

Oral administration of TPP-conjugated antioxidants protects against mitochondrial damage in vivo. However, there is also a need to deliver molecules rapidly to mitochondria to respond quickly to pathologies and for the real-time assessment of mitochondrial function.

Methods

To see if this was possible we investigated how rapidly TPP cations were taken up by mitochondria in vivo following intravenous (iv) administration.

Results

AlkylTPP cations were accumulated selectively by mitochondria within mice within 5 min of iv injection. The extent of uptake was enhanced 10–30-fold relative to simple alkylTPP cations by attaching functional groups to the TPP cation via long, hydrophobic alkyl chains. Conclusions: Mitochondria-targeted antioxidants, probes and pharmacophores can be delivered into mitochondria within minutes of iv administration.

General significance

These findings greatly extend the utility of mitochondria-targeted lipophilic cations as therapies and probes.     

Association between the ghrelin Leu72Met polymorphism and type 2 diabetes risk: A meta-analysis

Aims

Data on the association between the ghrelin Leu72Met polymorphism and type 2 diabetes are conflicting. A meta-analysis was performed on this topic.

Methods

We searched for case–control studies using electronic databases (Medline and PubMed) and reference lists of studies. Odds ratios (OR) and 95% confidence intervals (CI) assuming dominant, recessive and homozygote comparison genetic models were calculated.

Results

Six case–control studies involving a total of 3417 cases and 3081 controls were included in this meta-analysis. No association was found between the ghrelin Leu72Met polymorphism and type 2 diabetes risk in the overall population in dominant, recessive and homozygote comparison models. However, in subgroup analyses stratified by ethnicity, we found that the risk for type 2 diabetes was decreased in subjects with Met72 + genotypes in Caucasians (OR = 0.79, 95% CI: 0.64–0.98, P_z = 0.030).

Conclusion

The ghrelin Leu72Met polymorphism was protective against type 2 diabetes in Caucasians. Future studies performed in larger sample size are needed to allow a more definitive conclusion.     

Purification,characterization and cloning of a ricin B-like lectin from mushroom Clitocybe nebularis with antiproliferative activity against human leukemic T cells

Background

Lectins are a diverse group of carbohydrate-binding proteins exhibiting numerous biological activities and functions.

Methods

Two-step serial carbohydrate affinity chromatography was used to isolate a lectin from the edible mushroom clouded agaric (Clitocybe nebularis). It was characterized biochemically, its gene and cDNA cloned and the deduced amino acid sequence analyzed. Its activity was tested by hemagglutination assay and carbohydrate-binding specificity determined by glycan microarray analysis. Its effect on proliferation of several human cell lines was determined by MTS assay.

Results

A homodimeric lectin with 15.9-kDa subunits agglutinates human group A, followed by B, O, and bovine erythrocytes. Hemagglutination was inhibited by glycoprotein asialofetuin and lactose. Glycan microarray analysis revealed that the lectin recognizes human blood group A determinant GalNAcα1–3(Fucα1–2)Galβ-containing carbohydrates, and GalNAcβ1–4GlcNAc (N,N'-diacetyllactosediamine). The lectin exerts antiproliferative activity specific to human leukemic T cells.

Conclusions

The protein belongs to the ricin B-like lectin superfamily, and has been designated as C. nebularis lectin (CNL). Its antiproliferative effect appears to be elicited by binding to carbohydrate receptors on human leukemic T cells.

General significance

CNL is one of the few mushroom ricin B-like lectins that have been identified and the only one so far shown to possess immunomodulatory properties.     

Polyaminooligonucleotide: NMR structure of duplex DNA containing a nucleoside with spermine residue,N-[4,9,13-triazatridecan-1-yl]-2′-deoxycytidine

Background

The nature of the polyamine–DNA interactions at a molecular level is not clearly understood.

Methods

In order to shed light on the binding preferences of polyamine with nucleic acids, the NMR solution structure of the DNA duplex containing covalently bound spermine was determined.

Results

The structure of 4-N-[4,9,13-triazatridecan-1-yl]-2′-deoxycytidine (dCSp) modified duplex was compared to the structure of the reference duplex. Both duplexes are regular right-handed helices with all attributes of the B-DNA form. The spermine chain which is located in a major groove and points toward the 3′ end of the modified strand does not perturb the DNA structure.

Conclusion

In our study the charged polyamine alkyl chain was found to interact with the DNA surface. In the majority of converged structures we identified the presumed hydrogen bonding interactions between O6 and N7 atoms of G4 and the first internal –NH2⁺− amino group. Additional interaction was found between the second internal –NH2⁺− amino group and the oxygen atom of the phosphate of C3 residue.

General significance

The knowledge of the location and nature of a structure-specific binding site for spermine in DNA should be valuable in understanding gene expression and in the design of new therapeutic drugs.     

Variations of dissection properties and mass fractions with thrombus age in human abdominal aortic aneurysms

Introduction

Thrombus ages, defined as four relative age phases, are related to different compositions of the intraluminal thrombus (ILT) in the abdominal aortic aneurysm (AAA) (Tong et al., 2011b). Experimental studies indicate a correlation between the relative thrombus age and the strength of the thrombus-covered wall.

Methods

On 32 AAA samples we performed peeling tests with the aim to dissect the material (i) through the ILT thickness, (ii) within the individual ILT layers and (iii) within the aneurysm wall underneath the thrombus by using two extension rates (1 mm/min, 1 mm/s). Histological investigations and mass fraction analysis were performed to characterize the dissected morphology, to determine the relative thrombus age, and to quantify dry weight percentages of elastin and collagen in the AAA wall.

Results

A remarkably lower dissection energy was needed to dissect within the individual ILT layers and through the thicknesses of old thrombi. With increasing ILT age the dissection energy of the underlying intima–media composite continuously decreased and the anisotropic dissection properties for that composite vanished. The quantified dissection properties were rate dependent for both tissue types (ILT and wall). Histology showed that single fibrin fibers or smaller protein clots within the ILT generate smooth dissected surfaces during the peeling. There was a notable decrease in mass fraction of elastin within the thrombus-covered intima–media composite with ILT age, whereas no significant change was found for that of collagen.

Conclusions

These findings suggest that intraluminal thrombus aging leads to a higher propensity of dissection for the ILT and the intima–media composite of the aneurysmal wall.     

Excitatory effects of bombesin receptors in urinary tract of normal and diabetic rats in vivo

Aims

Bombesin receptors (BB receptors) and bombesin related peptides are expressed in the lower urinary tract of rodents. Here we investigated whether in vivo activation of BB receptors can contract the urinary bladder and facilitate micturition in sham rats and in a diabetic rat model of voiding dysfunction.

Material and methods

In vivo cystometry experiments were performed in adult female Sprague–Dawley rats under urethane anesthesia. Diabetes was induced by streptozotocin (STZ; 65 mg/kg, i.p.) injection. Experiments were performed 9 and 20 weeks post STZ-treatment. Drugs included neuromedin B (NMB; BB1 receptor preferring agonist), and gastrin-releasing peptide (GRP; BB2 receptor preferring agonist).

Key findings

NMB and GRP (0.01–100 μg/kg in sham rats; 0.1–300 μg/kg in STZ-treated rats, i.v.) increased micturition frequency, bladder contraction amplitude and area under the curve dose dependently in both sham and STZ-treated rats. In addition, NMB (3, 10 μg/kg i.v.) triggered voiding in > 80% of STZ-treated rats when the bladder was filled to a sub-threshold voiding volume. NMB and GRP increased mean arterial pressure and heart rate at the highest doses, 100 and 300 μg/kg.

Significance

Activation of bombesin receptors facilitated neurogenic bladder contractions in vivo. Single applications of agonists enhanced or triggered voiding in sham rats as well as in the STZ-treated rat model of diabetic voiding dysfunction. These results suggest that BB receptors may be targeted for drug development for conditions associated with poor detrusor contraction such as an underactive bladder condition.     

Inhibition of peroxisomal hydroxypyruvate reductase (HPR1) by tyrosine nitration

Background

Protein tyrosine nitration is a post-translational modification (PTM) mediated by nitric oxide-derived molecules. Peroxisomes are oxidative organelles in which the presence of nitric oxide (NO) has been reported.

Methods

We studied peroxisomal nitroproteome of pea leaves by high-performance liquid chromatography with tandem mass spectrometry (LC–MS/MS) and proteomic approaches.

Results

Proteomic analysis of peroxisomes from pea leaves detected a total of four nitro-tyrosine immunopositive proteins by using an antibody against nitrotyrosine. One of these proteins was found to be the NADH-dependent hydroxypyruvate reductase (HPR). The in vitro nitration of peroxisomal samples caused a 65% inhibition of HPR activity. Analysis of recombinant peroxisomal NADH-dependent HPR1 activity from Arabidopsis in the presence of H₂O₂, NO, GSH and peroxynitrite showed that the ONOO⁻ molecule caused the highest inhibition of activity (51% at 5 mM SIN-1), with 5 mM H₂O₂ having no inhibitory effect. Mass spectrometric analysis of the nitrated recombinant HPR1 enabled us to determine that, among the eleven tyrosine present in this enzyme, only Tyr-97, Tyr-108 and Tyr-198 were exclusively nitrated to 3-nitrotyrosine by peroxynitrite. Site-directed mutagenesis confirmed Tyr198 as the primary site of nitration responsible for the inhibition on the enzymatic activity by peroxynitrite.

Conclusion

These findings suggest that peroxisomal HPR is a target of peroxynitrite which provokes a loss of function.

General significance

This is the first report demonstrating the peroxisomal NADH-dependent HPR activity involved in the photorespiration pathway is regulated by tyrosine nitration, indicating that peroxisomal NO metabolism may contribute to the regulation of physiological processes under no-stress conditions.     

A unique combination of 17pter trisomy and 21qter monosomy in a boy with developmental delay,severe intellectual disability,growth retardation and dysmorphisms

Background

Microduplication at 17p13.3 and microdeletion at 21q22 are both rare chromosomal aberrations. The presence of both genomic imbalances in one patient has not been previously reported in literature. In this study, we performed a molecular diagnostic testing with a whole genome microarray on a 3-year-old boy with developmental delay, mental retardation and multiple malformations.

Methods

A routine G-banding karyotype analysis was performed using peripheral lymphocytes. Chromosome microarray analysis (CMA) was done using Affymetrix CytoScan™ HD array. Genomic imbalances were further confirmed by multiple ligation-dependent probe amplification (MLPA).

Results

The result of karyotyping was normal but CMA detected a 9.8 Mb microduplication at 17p13.3–13.1 (chr17: 1–9,875,545) and a 2.8 Mb microdeletion involving 21q22.3–qter (chr21: 45,239,077–48,097,372). The imbalances were due to a balanced translocation present in patient's mother. The patient was characterized with short stature, profound developmental delay, non-verbal, intellectual disability as well as craniofacial dysmorphism, subtle brain structural anomaly and sparse scalp hair.

Conclusions

This is the first patient reported with a combination of a microduplication at 17p13.3–13.1 and a microdeletion at 21q22.3–qter. Both genomic imbalances were undetected by conventional karyotyping but were delineated with CMA test. Synergistic effect from the two rare genomic imbalances is likely responsible for the severe clinical phenotypes observed in this patient.