Endothelium-dependent vasodilation in different rat hindlimb skeletal muscles.

Few studies have examined potential for endothelium-dependent vasodilation in skeletal muscles of different fiber-type composition. We hypothesized that muscles composed of slow oxidative (SO)- and/or fast oxidative glycolytic (FOG)-type fibers have greater potential for endothelium-dependent vasodilation than muscles composed of fast glycolytic (FG)-type fibers. To test this hypothesis, the isolated perfused rat hindlimb preparation was used with a constant-flow, variable-pressure approach. Perfusion pressure was monitored continuously, and muscle-specific flows were determined by using radiolabeled microspheres at four time points: control, at peak effect of acetylcholine (ACh I; 1-2 x 10(-4) M), at peak effect of ACh after infusion of an endothelial inhibitor (ACh II), and at peak effect of sodium nitroprusside (SNP; 4-5 x 10(-4) M). Conductance was calculated by using pressure and flow data. In the SO-type soleus muscle, conductance increased with ACh and SNP, but the increase in conductance with ACh was partially abolished by the endothelial inhibitor N(G)-nitro-l-arginine methyl ester (control, 0.87 +/- 0.19; ACh I, 2.07 +/- 0.29; ACh II, 1.32 +/- 0.15; SNP, 1.76 +/- 0.19 ml. min(-1). 100 g(-1). mmHg(-1); P < 0.05, ACh I and SNP vs. control). In the FOG-type red gastrocnemius muscle, similar findings were obtained (control, 0.64 +/- 0.11; ACh I, 1.36 +/- 0.21; ACh II, 0.73 +/- 0.16; SNP, 1.30 +/- 0.21 ml. min(-1). 100 g(-1). mmHg; P < 0.05, ACh I and SNP vs. control). In the FG-type white gastrocnemius muscle, neither ACh nor SNP increased conductance. Similar findings were obtained when muscles were combined into high- and low-oxidative muscle groups. Indomethacin had no effect on responses to ACh. These data indicate that endothelium-dependent vasodilation is exhibited by high-oxidative, but not low-oxidative, rat skeletal muscle. Furthermore, endothelium-dependent vasodilation in high-oxidative muscle appears to be primarily mediated by nitric oxide.     

Sequences of three class II promoters for the bacteriophage T7 RNA polymerase

The sequences of three promoters recognized by the bacteriophage T7 RNA polymerase in the class II region of T7 DNA are reported. They are located at 27.9, 33.3 and 34.7 T7 units. The sequences of these promoters are compared with those of other previously characterized late T7 promoters.     

Cell-free synthesis of high-molecular-weight small intestinal polypeptides

An intrinsic membrane glycoprotein, Mr 131 000, is a major developmentally specific component of the neonatal guinea-pig small intestinal microvillar membrane. Such high-molecular-weight proteins are often difficult to translate in vitro. In this study we report a successful strategy for the identification of the primary translation product of this glycoprotein, a high-molecular-weight precursor polypeptide of approximate Mr 225 000.     

Cerebrospinal Fluid Levels of Amyloid Precursor Protein Are Associated with Ventricular Size in Post-Hemorrhagic Hydrocephalus of Prematurity

Background

Neurological outcomes of preterm infants with post-hemorrhagic hydrocephalus (PHH) remain among the worst in infancy, yet there remain few instruments to inform the treatment of PHH. We previously observed PHH-associated elevations in cerebrospinal fluid (CSF) amyloid precursor protein (APP), neural cell adhesion molecule-L1 (L1CAM), neural cell adhesion molecule-1 (NCAM-1), and other protein mediators of neurodevelopment.

Objective

The objective of this study was to examine the association of CSF APP, L1CAM, and NCAM-1 with ventricular size as an early step toward developing CSF markers of PHH.

Methods

CSF levels of APP, L1CAM, NCAM-1, and total protein (TP) were measured in 12 preterm infants undergoing PHH treatment. Ventricular size was determined using cranial ultrasounds. The relationships between CSF APP, L1CAM, and NCAM-1, occipitofrontal circumference (OFC), volume of CSF removed, and ventricular size were examined using correlation and regression analyses.

Results

CSF levels of APP, L1CAM, and NCAM-1 but not TP paralleled treatment-related changes in ventricular size. CSF APP demonstrated the strongest association with ventricular size, estimated by frontal-occipital horn ratio (FOR) (Pearson R = 0.76, p = 0.004), followed by NCAM-1 (R = 0.66, p = 0.02) and L1CAM (R = 0.57,p = 0.055). TP was not correlated with FOR (R = 0.02, p = 0.95).

Conclusions

Herein, we report the novel observation that CSF APP shows a robust association with ventricular size in preterm infants treated for PHH. The results from this study suggest that CSF APP and related proteins at once hold promise as biomarkers of PHH and provide insight into the neurological consequences of PHH in the preterm infant.     

Alanine Aminotransferase Variants Conferring Diverse NUE Phenotypes in Arabidopsis thaliana

Alanine aminotransferase (AlaAT, E.C. 2.6.1.2), is a pyridoxal-5’-phosphate-dependent (PLP) enzyme that catalyzes the reversible transfer of an amino group from alanine to 2-oxoglutarate to produce glutamate and pyruvate, or vice versa. It has been well documented in both greenhouse and field studies that tissue-specific over-expression of AlaAT from barley (Hordeum vulgare, HvAlaAT) results in a significant increase in plant NUE in both canola and rice. While the physical phenotypes associated with over-expression of HvAlaAT have been well characterized, the role this enzyme plays in vivo to create a more N efficient plant remains unknown. Furthermore, the importance of HvAlaAT, in contrast to other AlaAT enzyme homologues in creating this phenotype has not yet been explored. To address the role of AlaAT in NUE, AlaAT variants from diverse sources and different subcellular locations, were expressed in the wild-type Arabidopsis thaliana Col-0 background and alaat1;2 (alaat1-1;alaat2-1) knockout background in various N environments. The analysis and comparison of both the physical and physiological properties of AlaAT over-expressing transgenic plants demonstrated significant differences between plants expressing the different AlaAT enzymes under different external conditions. This analysis indicates that the over-expression of AlaAT variants other than HvAlaAT in crop plants could further increase the NUE phenotype(s) previously observed.     

Head impact accelerations for brain strain-related responses in contact sports: a model-based investigation

Both linear \((\mathbf{a}_{\mathrm{lin}})\) and rotational \((\mathbf{a}_{\mathrm{rot}} )\) accelerations contribute to head impacts on the field in contact sports; however, they are often isolated in injury studies. It is critical to evaluate the feasibility of estimating brain responses using isolated instead of full degrees-of-freedom (DOFs) accelerations. In this study, we investigated the sensitivities of regional brain strain-related responses to resultant \(\mathbf{a}_{\mathrm{lin}}\) and \(\mathbf{a}_{\mathrm{rot}}\) as well as the relative contributions of these acceleration components to the responses via random sampling and linear regression using parameterized, triangulated head impacts with kinematic variable values based on on-field measurements. Two independently established and validated finite element models of the human head were employed to evaluate model-consistency and dependency in results: the Dartmouth Head Injury Model and Simulated Injury Monitor. For the majority of the brain, volume-weighted regional peak strain, strain rate, and von Mises stress accumulated from the simulation significantly correlated with the product of the magnitude and duration of \(\mathbf{a}_{\mathrm{rot}}\) , or effectively, the rotational velocity, but not to \(\mathbf{a}_{\mathrm{lin}}\) . Responses from \(\mathbf{a}_{\mathrm{rot}}\) -only were comparable to the full-DOF counterparts especially when normalized by injury-causing thresholds (e.g., volume fractions of large differences virtually diminished (i.e., \(<\) 1 %) at typical difference percentage levels of 1–4 % on average). These model-consistent results support the inclusion of both rotational acceleration magnitude and duration into kinematics-based injury metrics and demonstrate the feasibility of estimating strain-related responses from isolated \(\mathbf{a}_{\mathrm{rot}}\) for analyses of strain-induced injury relevant to contact sports without significant loss of accuracy, especially for the cerebrum.     

Associations between COPD related manifestations: a cross-sectional study

Background

Cardiovascular disease, osteoporosis and emphysema are associated with COPD. Associations between these factors and whether they predict all-cause mortality in COPD patients are not well understood. Therefore, we examined associations between markers of cardiovascular disease (coronary artery calcification [CAC], thoracic aortic calcification [TAC] and arterial stiffness), bone density (bone attenuation of the thoracic vertebrae), emphysema (PI-950 and 15th percentile) and all-cause mortality in a COPD cohort.

Methods

We assessed CAC, TAC, bone attenuation of the thoracic vertebrae, PI-950 and 15th percentile on low-dose chest computed tomography in COPD subjects. We measured arterial stiffness as carotid-radial pulse wave velocity (PWV), and identified deaths from the national register.

Results

We studied 119 COPD subjects; aged 67.8 ±7.3, 66% were males and mean FEV₁% predicted was 46.0 ±17.5. Subjects were classified into three pre-specificed groups: CAC = 0 (n = 14), 0 < CAC ≤ 400 (n = 41) and CAC > 400 (n = 64). Subjects with higher CAC were more likely to be older (p < 0.001) and male (p = 0.03), and more likely to have higher systolic blood pressure (p = 0.001) and a history of hypertension (p = 0.002) or ischemic heart disease (p = 0.003). Higher CAC was associated with higher PWV (OR 1.62, p = 0.04) and lower bone attenuation (OR 0.32, p = 0.02), but not with 15th percentile, after adjustment for age, sex and pack-years of smoking. In a Cox proportional hazards model, CAC, TAC and 15th percentile predicted all-cause mortality (HR 2.01, 2.09 and 0.66, respectively).

Conclusions

Increased CAC was associated with increased arterial stiffness and lower bone density in a COPD cohort. In addition, CAC, TAC and extent of emphysema predicted all-cause mortality.

Trial registration

Lothian NHS Board, Lothian Research Ethics Committee, LREC/2003/8/28.     

706. BETULA ASHBURNERI

A high altitude shrub birch from Bhutan, south‐east Tibet, north‐west Yunnan and western Sichuan, which has been referred to the tetraploid Betula utilis, is shown to be a distinct diploid species, described here as Betula ashburneri McAllister & Rushforth.