Detection of contractility changes in the heart from arterial blood pressure data using symmetric Projection Attractor Reconstruction.

The potential for unintended drug induced changes in cardiac contractility is a major concern in medicines development. Whilst direct left ventricular pressure (LVP) measurement is the gold standard for measuring cardiac contractility in vivo, it is resource intensive and poses a welfare burden on research animals. In contrast, arterial blood pressure (BP) measurement has fewer challenges. Symmetric Projection Attractor Reconstruction (SPAR) is a signal processing technique which transforms physiological time-series signals into a corresponding visual image ('attractor'), amplifying morphology changes within physiological waveforms. It was hypothesized that SPAR analysis of BP signals would provide a surrogate measure of cardiac contractility by specifically amplifying the maximum slope of the systolic upstroke. BP (abdominal aorta) signals obtained from beagle dogs, treated with positive and negative inotropes, were retrospectively analysed to identify signal features that correlated with the maximum upslope of the LVP signal from simultaneously acquired LVP recordings. SPAR transformation of BP signals quantified drug induced changes in the maximum slope of the systolic upstroke. We identified key SPAR metrics that provided >0.8 correlation with the LVP maximum upslope, outperforming the BP systolic upstroke alone. This was observed for all 4 different drugs, doses and time points evaluated across studies. Thus, we conclude that the SPAR measures derived from the BP signal could be used as a first pass in vivo screen to flag any risk of drug induced changes in cardiac contractility during the conduct of non-clinical medicines development, potentially reducing or replacing the need to perform direct left ventricular measurements.

Evidence for PI-3K-dependent migration of Th17-polarized cells in response to CCR2 and CCR6 agonists.

IL-17-producing Th cells (Th17) are a distinct subset of effector cells that bridge the innate and adaptive immune system and are implicated in autoimmune disease processes. CD4(+) splenocytes from DO11.10 mice were activated with OVA peptide(323-339) and maintained under Th17 polarization conditions, resulting in significantly higher proportions of IL-17(+) T cells compared with nonpolarized (Th0) cells. Th17-polarizing conditions significantly increased the proportion of cells expressing the chemokine receptors CCR2, CCR6, and CCR9 when compared with Th0 cells. In contrast, there was a significant decrease in the proportion of cells expressing CXCR3 under Th17-polarizing conditions compared with nonpolarizing conditions. The respective chemokine agonists for CCR2 (CCL2 and CCL12), CCR6 (CCL20), and CCR9 (CCL25) elicited migration and PI-3K-dependent signaling events in Th17-polarized cells, thus indicating that all three receptors were functionally and biochemically responsive. Furthermore, postmigration phenotypic analysis demonstrated that the agonists for CCR2 and CCR6, but not CCR9, stimulated a modest enrichment of IL-17(+) cells compared with the premigration population. Pan-isoform inhibitors of PI-3K/Akt signaling prevented CCR2- and CCR6-mediated, polarized Th17 cell migration in a concentration-dependent manner. The unique chemokine receptor expression pattern of Th17 cells and their corresponding PI-3K-dependent migratory responses are important for understanding the pathogenesis of autoimmune diseases and may provide opportunities for the application of CCR2 and CCR6 antagonists and PI-3K isoform-selective inhibitors in defined inflammatory settings.

Beyond HRV: attractor reconstruction using the entire cardiovascular waveform data for novel feature extraction.

Advances in monitoring technology allow blood pressure waveforms to be collected at sampling frequencies of 250-1000 Hz for long time periods. However, much of the raw data are under-analysed. Heart rate variability (HRV) methods, in which beat-to-beat interval lengths are extracted and analysed, have been extensively studied. However, this approach discards the majority of the raw data. OBJECTIVE: Our aim is to detect changes in the shape of the waveform in long streams of blood pressure data. APPROACH: Our approach involves extracting key features from large complex data sets by generating a reconstructed attractor in a three-dimensional phase space using delay coordinates from a window of the entire raw waveform data. The naturally occurring baseline variation is removed by projecting the attractor onto a plane from which new quantitative measures are obtained. The time window is moved through the data to give a collection of signals which relate to various aspects of the waveform shape. MAIN RESULTS: This approach enables visualisation and quantification of changes in the waveform shape and has been applied to blood pressure data collected from conscious unrestrained mice and to human blood pressure data. The interpretation of the attractor measures is aided by the analysis of simple artificial waveforms. SIGNIFICANCE: We have developed and analysed a new method for analysing blood pressure data that uses all of the waveform data and hence can detect changes in the waveform shape that HRV methods cannot, which is confirmed with an example, and hence our method goes 'beyond HRV'.

Ca(2+) signalling by recombinant human CXCR2 chemokine receptors is potentiated by P2Y nucleotide receptors in HEK cells.

1. Human embryonic kidney (HEK)-293 cells expressing recombinant G alpha(i)-coupled, human CXC chemokine receptor 2 (CXCR2) were used to study the elevation of the intracellular [Ca(2+)] ([Ca(2+)](i)) in response to interleukin-8 (IL-8) following pre-stimulation of endogenously expressed P2Y1 or P2Y2 nucleotide receptors. 2. Pre-stimulation of cells with adenosine 5'-triphosphate (ATP) revealed a substantial Ca(2+) signalling component mediated by IL-8 (E(max)=83 +/- 8% of maximal ATP response, pEC(50) of IL-8 response=9.7 +/- 0.1). 3. 1 microM 2-methylthioadenosine 5'-diphosphate (2MeSADP; P2Y1 selective) and 100 microM uridine 5'-triphosphate (UTP; P2Y2 selective) stimulated equivalent maximal increases in [Ca(2+)](i) elevation. However, UTP caused a sustained elevation, whilst following 2MeSADP [Ca(2+)](i) rapidly returned to basal levels. 4. Both UTP and 2MeSADP increased the potency and magnitude of IL-8-mediated [Ca(2+)](i) elevation but the effects of UTP (E(max) of IL-8 response increased to 50 +/- 1% of the maximal response to ATP, pEC(50) increased to 9.8 +/- 0.1) were greater than those of 2MeSADP (E(max) increased to 36 +/- 2%, pEC(50) increased to 8.7 +/- 0.2). 5. 5. The potentiation of IL-8-mediated Ca(2+) signalling by UTP was not dependent upon the time of IL-8 addition following UTP but was dependent on the continued presence of UTP. Potentiated IL-8 Ca(2+) signalling was apparent in the absence of extracellular Ca(2+), demonstrating the release of Ca(2+) from intracellular stores. 6. Activation of P2Y1 and P2Y2 receptors also revealed Ca(2+) signalling by an endogenously expressed, G alpha(s)-coupled beta-adrenoceptor. 7. In conclusion, pre-stimulation of P2Y nucleotide receptors, particularly P2Y2, facilitates Ca(2+) signalling by either recombinant CXCR2 or endogenous beta-adrenoceptors.