Removal of the endothelial surface layer via hyaluronidase does not modulate monocyte and neutrophil interactions with the glomerular endothelium

OBJECTIVE

The endothelial surface layer (ESL), a layer of macromolecules on the surface of endothelial cells, can both impede and facilitate leukocyte recruitment. However, its role in monocyte and neutrophil recruitment in glomerular capillaries is unknown.

METHODS

We used multiphoton intravital microscopy to examine monocyte and neutrophil behavior in the glomerulus following ESL disruption with hyaluronidase.

RESULTS

Constitutive retention and migration of monocytes and neutrophils within the glomerular microvasculature was unaltered by hyaluronidase. Consistent with this, inhibition of the hyaluronan-binding molecule CD44 also failed to modulate glomerular trafficking of these immune cells. To investigate the contribution of the ESL during acute inflammation, we induced glomerulonephritis via in situ immune complex deposition. This resulted in increases in glomerular retention of monocytes and neutrophils but did not induce marked reduction in the glomerular ESL. Furthermore, hyaluronidase treatment did not modify the prolonged retention of monocytes and neutrophils in the acutely inflamed glomerular microvasculature.

CONCLUSIONS

These observations indicate that, despite evidence that the ESL has the capacity to inhibit leukocyte-endothelial cell interactions while also containing adhesive ligands for immune cells, neither of these functions modulate trafficking of monocytes and neutrophils in steady-state or acutely-inflamed glomeruli.

Repetitive Manual Acupuncture Increases Markers of Innate Immunity in Mice Subjected to Restraint Stress

Objective

To study the effects of repetitive manual acupuncture treatment on acute stress in mice and to explore its impact on the immune system.

Methods

Thirty-six mice were randomly allocated to one of four groups: control, acupuncture, stress and acupuncture+stress (n=9 each). Mice in the two acupuncture groups were given daily acupuncture treatment superficially (to skin depth) at CV6, CV12 and bilateral ST25, LR14, GB20, GB21, BL10, BL11, BL13, BL14, BL19, BL23 and BL25 for 7 days. On the eighth day mice in the stress and acupuncture+stress groups were exposed to acute stress for 2 h by confinement in a 50 mL centrifuge tube. Body temperature, blood glucose, the number and subpopulation ratios of leucocytes in the liver, spleen and thymus, natural killer (NK) cell percentage cytotoxicity and serum corticosterone and interferon gamma IFNγ were quantified.

Results

Mice exposed to stress (irrespective of acupuncture treatment) exhibited hypothermia and hyperglycaemia. However, the increase in glucose level was mitigated by repetitive acupuncture treatment (p<0.05). Percentage cytotoxicity and the level of corticosterone were significantly increased after stress but were unaffected by acupuncture. IFNγ levels did not differ between the groups. Hepatic innate immunity in the liver appeared to be stimulated by repetitive acupuncture treatment as proportions of extrathymic T cells, NK cells and NKT cells in the liver were greatest in the acupuncture+stress group and significantly increased relative to the control group.

Conclusions

Repetitive manual acupuncture mitigated stress-induced hyperglycaemia and enhanced markers of innate immunity in the liver within the range of normal homoeostasis. As long as acupuncture stimuli were appropriately applied, they did not appear to be stressful to the mice.

The CD44 ligand hyaluronic acid is elevated in the cerebrospinal fluid of suicide attempters and is associated with increased blood-brain barrier permeability

BACKGROUND

The glycosaminoglycan hyaluronic acid (HA) is an important component of the extracellular matrix (ECM) in the brain. CD44 is a cell adhesion molecule that binds to HA in the ECM and is present on astrocytes, microglia and certain neurons. Cell adhesion molecules have been reported to be involved in anxiety and mood disorders. CD44 levels are decreased in the cerebrospinal fluid (CSF) of depressed individuals, and the CD44 gene has been identified in brain GWAS studies as a possible risk gene for suicidal behavior.

METHOD

We measured the CSF levels of HA and the soluble CD44 (sCD44) in suicide attempters (n=94) and in healthy controls (n=45) using ELISA and electrochemiluminescence assays. We also investigated other proteins known to interact with CD44, such as osteopontin and the matrix metalloproteinases MMP1, MMP3 and MMP9.

RESULTS

The suicide attempters had higher CSF levels of HA (p=.003) and MMP9 (p=.004). The CSF levels of HA correlated with BBB-permeability (rho=0.410, p<.001) and MMP9 correlated with sCD44 levels (rho=0.260, p=.005).

LIMITATIONS

Other relevant biological contributors to suicidal behavior is not addressed in parallel to the specific role of CD44-HA signaling. The gender distribution of the patients from whom CSF was analyzed was uneven.

CONCLUSIONS

Increased BBB-permeability and HA levels might be a results of increased neuroinflammation and can play a role in the pathobiology of suicidal behavior. The CD44 signaling pathway might be considered a novel target for intervention in mood disorders.

Proteomic profiling of rapid non-genomic and concomitant genomic effects of acute restraint stress on rat thymocytes

In order to investigate rapid non-genomic effects of acute stress, rats were restrained for 15 min which was sufficient to activate the hypothalamus-pituitary-adrenal (HPA) axis but too short to induce massive genomic effects of cortisol. Subcellular fractions of thymocytes (cytosol, nucleus, membrane) were investigated using quantitative 2D DIGE with MALDI-TOF/TOF mass spectrometry. In total, 108 proteins with differential subcellular localizations were identified. The specificity of the changes induced by psychological stress was reflected by the prominent modulation of proteins involved in the HPA and sympathoadrenal medullar (SAM) axis such as HMGB1 and NHERF1. Intracellular trafficking was characterized by a dominant protein exodus from the cytosol. Real translocation was observed for 9 proteins with 6 that shuttled from the cytosol to the nucleus (HYOU1, HNRPF, HNRPC, STRAP, PSA1, PPA1) and 3 from the nucleus to the cytosol (HMGB1, NHERF1, PSMA1). Proteins showing subcellular reshuffling were largely involved in transcription and translation processes (39 of 108) with a significant enrichment of RNA splicing factors. Bioinformatics analysis revealed significant enrichment for protein kinase A and 14-3-3 signaling, probably reflecting real non-genomic effects. This is the first study investigating rapid effects of stress-induced HPA activation in vivo at the proteome level.