Marlene Tschernatsch

Autoimmunity against the β2 adrenergic receptor and muscarinic-2 receptor in complex regional pain syndrome

Summary Complex regional pain syndrome patient sera contain functional active autoantibodies against the β2 adrenergic receptor and muscarinic‐2 receptor, supporting the concept of an autoimmune etiology in CRPS. ABSTRACT Complex regional pain syndrome (CRPS) is a painful condition affecting one or more extremities of the body, marked by a wide variety of symptoms and signs that are often difficult to manage because the pathophysiology is incompletely understood. Thus, diverse treatments might be ineffective. A recent report revealed the presence of autoantibodies against differentiated autonomic neurons in CRPS patients. However, it remained unclear how the antibodies act in the development of CRPS. We therefore aimed to characterize these antibodies and identify target antigens. Functional properties of affinity‐purified immunoglobulin G of control subjects or CRPS patients were assessed using a cardiomyocyte bioassay. Putative corresponding receptors were identified using antagonistic drugs, and synthesized peptide sequences corresponding to segments of these receptors were used to identify the target epitopes. Chinese hamster ovary cells were transfected with putative receptors to ensure observed binding. Further, changes in the intracellular Ca2+ concentration induced by agonistic immunoglobulin G were measured using the Ca2+‐sensitive fluorescent dye fura‐2 assay. Herein, we demonstrate the presence of autoantibodies in a subset of CRPS patients with agonistic‐like properties on the β2 adrenergic receptor and/or the muscarinic‐2 receptor. We identified these autoantibodies as immunoglobulin G directed against peptide sequences from the second extracellular loop of these receptors. The identification of functionally active autoantibodies in serum samples from CRPS patients supports an autoimmune pathogenesis of CRPS. Thus, our findings contribute to the further understanding of this disease, could help in the diagnosis in future, and encourage new treatment strategies focusing on the immune system.

Surface-binding autoantibodies to cerebellar neurons in opsoclonus syndrome

Childhood opsoclonus‐myoclonus syndrome can occur with or without associated neuroblastoma. An autoimmune pathogenesis has been discussed for both forms. We show here that the majority of children with opsoclonus‐myoclonus syndrome (10/14) have autoantibodies binding to the surface of isolated rat cerebellar granular neurons. In some patients, these antibodies are masked by IgG binding to ubiquitous surface antigens, which could be removed by preincubation with the nonneuronal control cell line HEK 293. A newly introduced competitive binding assay showed that the surface binding is directed against the same autoantigen in different patients. Therefore, we hypothesize that opsoclonus‐myoclonus syndrome may be the result of an autoimmune process against a neuronal surface protein. Ann Neurol 2005

Autoantibodies in complex regional pain syndrome bind to a differentiation-dependent neuronal surface autoantigen.

ABSTRACT Complex regional pain syndrome, which is characterised by pain and trophic disturbances, develops frequently after peripheral limb trauma. There is an increasing evidence of an involvement of the immune system in CRPS, and recently we showed that CRPS patients have autoantibodies against nervous system structures [6]. Therefore we tested the sera of CRPS patients, neuropathy patients and healthy volunteers for surface‐binding autoantibodies to primary cultures of autonomic neurons and differentiated neuroblastoma cell lines using flow cytometry. Thirteen of 30 CRPS patients, but none of 30 healthy controls and only one of the 20 neuropathy sera had specific surface binding to autonomic neurons (p < 0.001). The majority of the sera reacted with both sympathetic and myenteric plexus neurons. Interestingly, 6/30 CRPS sera showed binding to undifferentiated SH‐SY5Y neuroblastoma cells. However, differentiation of SH‐SY5Y into a cholinergic phenotype induced a surface antigen, which is recognised by 60% of CRPS sera (18/30), but not by controls (p < 0.001). Our data show that about 30–40% of CRPS patients have surface‐binding autoantibodies against an inducible autonomic nervous system autoantigen. These data support an autoimmune hypothesis in CRPS patients. Further studies must elucidate origin and function of these autoantibodies in CRPS.

Signaling mechanism of extracellular RNA in endothelial cells

Extracellular RNA has been shown to induce vascular endothelial growth factor (VEGF)‐dependent hyperpermeability in vivo as well as in vitro. Studies were performed to investigate the mechanism of these effects. For permeability studies primary cultures of porcine brain‐derived microvascular endothelial cells (BMECs) and for all other analytical studies the human brain endothelial cell line HCMEC/D3 or human umbilical vein endothelial cells (HUVECs) were used. RNA, but not DNA, initiated signaling events by binding of VEGF to neuropilin‐1, followed by VEGF‐R2 phosphorylation, activation of phospholipase C (PLC), and intracellular release of Ca2+. Activation of these pathways by RNA also resulted in the release of von Willebrand Factor from Weibel‐Palade bodies. Pretreat‐ment of cells with heparinase totally abrogated the RNA‐induced permeability changes, whereas RNA together with VEGF completely restored VEGF‐R2‐mediated hyperpermeability. Although poly:IC increased the interleukin‐6 release via activation of toll‐like receptor‐3 (TLR‐3), permeability changes mediated by poly:IC or RNA remained unchanged after blocking TLR‐3 or NF‐kB activation. These results indicate that extracellular RNA serves an important cofactor function to engage VEGF for VEGF‐R2‐dependent signal transduction, reminiscent of the coreceptor mechanism mediated by proteoglycans, which might be of relevance for the mobilization and cellular activities of RNA‐binding cytokines in general.—Fischer, S.,Nishio, M., Peters, S. C., Tschernatsch, M., Walberer, M., Weidemann, S., Heidenreich, R., Couraud, P. O., Weksler, B. B., Romero, I. A., Gerriets, T., Preissner, K. T. Signaling mechanism of extracellular RNA in endothelial cells. FASEBJ. 23, 2100–2109 (2007)

Evaluation of Methods to Predict Early Long-Term Neurobehavioral Outcome After Coronary Artery Bypass Grafting

Postoperative cognitive decrease (POCD) represents the most frequent complication in modern cardiac surgery. The application of easily assessable surrogate parameters that predict long-term POCD at early time points is tempting. The aim of the present study was to analyze the predictive value of cerebral biomarkers, diffusion-weighted magnetic resonance imaging (DWI), and cognitive bedside testing after coronary artery bypass grafting (CABG). From 106 patients who underwent elective CABG, blood samples were drawn for the measurement of protein S100B and neuron-specific enolase release at baseline, at the end of surgery, and 48 hours afterward. Cerebral DWI was carried out before and 2 to 4 days after surgery. Cognitive functioning was assessed before, 2 to 4 days (bedside testing) after, and 3 months after CABG. On DWI, lesions were detected in 15.1% of patients. Biomarker levels and the presence of acute ischemic lesions on DWI were not associated with long-term POCD. Early POCD was correlated with 3-month POCD (r = 0.46, p <0.001). Ninety-one percent of patients who had shown moderate to severe POCD (<-1.5 z scores) in the early phase still had decreased memory functioning at 3 months compared to baseline (likelihood ratio 5.23). Early POCD was asserted as the only predictor for long-term POCD in a stepwise multiple linear regression model (R(2) = 0.20, p <0.001), excluding age, length of surgery, aortic clamping and cardiopulmonary bypass duration, the number of anastomoses, and postoperative neuron-specific enolase and S100B levels. In conclusion, the results show that in contrast to biomarkers, DWI, age, or intraoperative variables, early neuropsychological bedside testing predicts long-term POCD after CABG with acceptable accuracy.

Edema formation in the hyperacute phase of ischemic stroke. Laboratory investigation.

OBJECT Brain edema formation is a serious complication of ischemic stroke and can lead to mechanical compression of adjacent brain structures, cerebral herniation, and death. Furthermore, the space-occupying effect of edema impairs regional cerebral blood flow (rCBF), which is particularly important in the penumbra phase of stroke. In the present study, the authors evaluated the natural course of edema formation in the hyperacute phase of focal cerebral ischemia. METHODS Middle cerebral artery occlusion (MCAO) or a sham procedure was performed in rats within an MR imaging unit (in-bore occlusion). Both pre- and postischemic images could be compared on a pixel-by-pixel basis. The T2 relaxation time (T2RT), a marker for brain water content, was measured in regions of interest. RESULTS A significant increase in the T2RT was detectable as early as 20-45 minutes after MCAO. At this early time point the midline shift (MLS) amounted to 0.214 +/- 0.092 cm in the MCAO group and 0.061 +/- 0.063 cm in the sham group (p < 0.007). The T2RT and MLS increased linearly thereafter. Evans blue dye was intravenously injected in additional animals 20 and 155 minutes after MCAO. Extravasation of the dye was visible in all animals, indicating increased permeability of the blood-brain barrier. CONCLUSIONS Vasogenic brain edema occurs much earlier than expected following permanent MCAO and leads to MLS and mechanical compression of adjacent brain structures. Since compression effects can impair rCBF, early edema formation can significantly contribute to infarct formation and thus represents a promising target for neuroprotection.

Aggravation of infarct formation by brain swelling in a large territorial stroke: a target for neuroprotection?

OBJECT In territorial stroke vasogenic edema formation leads to elevated intracranial pressure (ICP) and can cause herniation and death. Brain swelling further impairs collateral blood flow to the ischemic penumbra and causes mechanical damage to adjacent brain structures. In the present study the authors sought to quantify the impact of this space-occupying effect on ischemic lesion formation. METHODS Wistar rats were assigned to undergo bilateral craniectomy or a sham operation and then were subjected to temporary middle cerebral artery occlusion (MCAO) for 90 minutes. A clinical evaluation and 7-T MR imaging studies were performed 5 and 24 hours after MCAO. The absolute brain water content was determined at 24 hours by using the wet/dry method. RESULTS Bilateral craniectomy before MCAO led to a drastic reduction in lesion volume at both imaging time points (p < 0.0001). Ischemic lesion volume was 2.7- and 2.3-fold larger in sham-operated animals after 5 and 24 hours, respectively. Clinical scores were likewise better in rats that had undergone craniectomy (p < 0.05). After 24 hours the midline shift differed significantly between the 2 groups (p < 0.001), but not after 5 hours. The relation between brain water content and ischemic lesion volume as well as the T2 relaxation time within the infarcted area was not different between the groups (p > 0.05). CONCLUSIONS The data indicated that collateral damage caused by the space-occupying effect of a large MCA territory stroke contributes seriously to ischemic lesion formation. The elimination of increased ICP thus must be regarded as a highly neuroprotective measure, rather than only a life-saving procedure to prevent cerebral herniation. Further clinical trials should reveal the neuroprotective potential of surgical and pharmacological ICP-lowering therapeutic approaches.

Autoimmunity in Complex‐Regional Pain Syndrome

Abstract:  Complex regional pain syndrome (CRPS) is an etiologically unclear syndrome with the main symptoms being pain, trophic and autonomic disturbances, and functional impairment that develops after limb trauma or operation and is located at the distal site of the affected limb. Because autoantibodies against nervous system structures have been described in these patients, an autoimmune etiology of CRPS is discussed. These autoantibodies bind to the surface of peripheral autonomic neurons. Using a competitive binding assay, it can be shown that at least some of the CRPS sera bind to the same neuronal epitope. Autoimmune etiology of CRPS is a new pathophysiological concept and may have severe impact on the treatment of this often chronic disease.

Elevated B-cell activating factor BAFF, but not APRIL, correlates with CSF cerebellar autoantibodies in pediatric opsoclonus-myoclonus syndrome

Childhood opsoclonus-myoclonus syndrome (OMS) occurs idiopathic or, in association with a neuroblastoma, as a paraneoplastic syndrome. Since autoantibodies were identified in some patients, an autoimmune pathogenesis has been suspected. While the newly discovered B-cell activating factors BAFF and APRIL are involved in systemic autoimmune diseases, their association with neuroimmunological diseases is hardly understood. We here investigated the BAFF and APRIL levels in serum and cerebrospinal fluid (CSF) of OMS patients and their correlation with surface-binding autoantibodies. BAFF and APRIL were both determined by ELISA, and autoantibodies to cerebellar granular neurons (CGN) have been investigated by flow cytometry in 17 OMS patients, 16 neuroblastoma (NB) patients, 13 controls and 11 children with inflammatory neurological diseases (IND). BAFF, but no APRIL, was elevated in the CSF of OMS children and IND children. However, in contrast to IND patients, OMS patients did not have a blood-brain-barrier disturbance, indicating that BAFF was produced intrathecally in OMS patients, but not in IND patients. CSF BAFF levels showed a correlation with CSF CGN autoantibodies (r(2)=0.58, p<0.05). These data indicate that an activated B-cell system in the cerebrospinal fluid is involved in the pathogenesis of OMS, and BAFF may be a candidate parameter for the activation of B-cell immune system.

Anti-SOX1 antibodies in patients with paraneoplastic and non-paraneoplastic neuropathy

Anti-SOX1 antibodies have been described to be positive in patients with paraneoplastic Lambert-Eaton myasthenic syndrome and, in a lower amount, in patients with anti-Hu positive paraneoplastic neurological syndromes, and with SCLC alone, respectively. We found 5/32 patients with paraneoplastic neuropathy and, surprisingly, 4/22 patients with neuropathy of unknown origin positive for anti-SOX1 antibodies, whereas no patient with inflammatory neuropathy and no healthy controls showed any reactivity (p=0.007). All patients with neuropathy of unknown origin where followed up for four years without diagnosis of a tumour so far. Anti-SOX1 antibodies are associated with paraneoplastic neuropathies and may define another group of non-paraneoplastic, immune-mediated neuropathies.