Proteoglycans are potent modulators of the biological responses of eosinophils to chemokines

Chemokines play critical roles in governing the recruitment and activation of eosinophils at sites of allergic inflammation, particularly the asthmatic lung. However, we know little of how chemokine function is regulated post-translationally. Proteoglycans, consisting of a core protein and glycosaminoglycan (GAG) side chains, are cell surface molecules and components of the extracellular matrix that are able to bind chemokines, whilst heparin is a GAG with therapeutic value in asthma. We examined whether soluble GAG could alter the actions of chemokines in assays of eosinophil activation. Heparin inhibited intracellular calcium flux, respiratory burst and chemotactic responses of eosinophils to CCL11, but not to the chemoattractant C5a, and inhibited binding of CCL11 to CCR3. Heparin also inhibited eosinophil stimulation by CCL11, CCL24, CCL7, CCL13 and CCL5 to differing degrees, which broadly correlated with their relative affinities for heparin. Heparan sulfate and dermatan sulfate, but not chondroitin sulfate, also inhibited the actions of CCL11 and CCL13 in assays of cellular shape change and chemotaxis. Following treatment with the sulfation inhibitor chlorate or proteoglycanases, no inhibition of CCL11-induced activity was observed using either eosinophils or a CCR3-expressing transfectant cell line. This suggests that cell surface proteoglycans are not necessary for signaling via CCR3. However, the GAG context in which chemokines are expressed is likely to represent an important level of regulation of allergic inflammation.     

Somatic alterations in the melanoma genome: A high‐resolution array‐based comparative genomic hybridization study

We performed DNA microarray‐based comparative genomic hybridization to identify somatic alterations specific to melanoma genome in 60 human cell lines from metastasized melanoma and from 44 corresponding peripheral blood mononuclear cells. Our data showed gross but nonrandom somatic changes specific to the tumor genome. Although the CDKN2A (78%) and PTEN (70%) loci were the major targets of mono‐allelic and bi‐allelic deletions, amplifications affected loci with BRAF (53%) and NRAS (12%) as well as EGFR (52%), MITF (40%), NOTCH2 (35%), CCND1 (18%), MDM2 (18%), CCNE1 (10%), and CDK4 (8%). The amplified loci carried additional genes, many of which could potentially play a role in melanoma. Distinct patterns of copy number changes showed that alterations in CDKN2A tended to be more clustered in cell lines with mutations in the BRAF and NRAS genes; the PTEN locus was targeted mainly in conjunction with BRAF mutations. Amplification of CCND1, CDK4, and other loci was significantly increased in cell lines without BRAF‐NRAS mutations and so was the loss of chromosome arms 13q and 16q. Our data suggest involvement of distinct genetic pathways that are driven either through oncogenic BRAF and NRAS mutations complemented by aberrations in the CDKN2A and PTEN genes or involve amplification of oncogenic genomic loci and loss of 13q and 16q. It also emerges that each tumor besides being affected by major and most common somatic genetic alterations also acquires additional genetic alterations that could be crucial in determining response to small molecular inhibitors that are being currently pursued. © 2010 Wiley‐Liss, Inc.     

Mutation of POC1B in a Severe Syndromic Retinal Ciliopathy

We describe a consanguineous Iraqi family with Leber congenital amaurosis (LCA), Joubert syndrome (JBTS), and polycystic kidney disease (PKD). Targeted next‐generation sequencing for excluding mutations in known LCA and JBTS genes, homozygosity mapping, and whole‐exome sequencing identified a homozygous missense variant, c.317G>C (p.Arg106Pro), in POC1B, a gene essential for ciliogenesis, basal body, and centrosome integrity. In silico modeling suggested a requirement of p.Arg106 for the formation of the third WD40 repeat and a protein interaction interface. In human and mouse retina, POC1B localized to the basal body and centriole adjacent to the connecting cilium of photoreceptors and in synapses of the outer plexiform layer. Knockdown of Poc1b in zebrafish caused cystic kidneys and retinal degeneration with shortened and reduced photoreceptor connecting cilia, compatible with the human syndromic ciliopathy. A recent study describes homozygosity for p.Arg106Pro_POC1B in a family with nonsyndromic cone‐rod dystrophy. The phenotype associated with homozygous p.Arg106Pro_POC1B may thus be highly variable, analogous to homozygous p.Leu710Ser in WDR19 causing either isolated retinitis pigmentosa or Jeune syndrome. Our study indicates that POC1B is required for retinal integrity, and we propose POC1B mutations as a probable cause for JBTS with severe PKD.     

Laser microdissection and pressure catapulting (LMPC) in paraffin sections mounted on glass slides. A methodological report

The technique of laser microdissection together with laser pressure catapulting (LMPC) is demonstrated in paraffin sections obtained from surgical specimens of brain tumors mounted on glass slides. A sufficient and precise application of microdissection techniques in tissue on glass slides is worthwhile, since it offers the possibility of a retrospective analysis of archived paraffin sections in histopathology. We could demonstrate a precise dissection of areas in tissues of different thicknesses (4 microm and 20 microm). Areas of tissue mounted directly on glass need to be dissected in a scanning mode in order to remove the total region in form of small tissue fragments row by row. This mode provided a precise microdissection of tissue areas of different sizes and shapes. A successful molecular biological analysis of the microdissected regions could be demonstrated. As an example for such an analysis, differential-PCR for detecting an amplification of the gene for the epidermal growth factor receptor (EGFR) was performed.     

A season of aseptic meningitis in Germany: epidemiologic,clinical and diagnostic aspects

OBJECTIVE: We assessed epidemiologic, clinical and laboratory features of aseptic meningitis during one season of multiserotype enteroviral meningitis in East Germany in 70 consecutive patients with aseptic meningitis admitted to the Children's University Hospital Leipzig. RESULTS: Patients, age 1 to 16 years, typically presented with headache, emesis and fever, whereas signs of meningeal irritation were only moderately expressed in one-half of the patients. The median number of leukocytes in the CSF was 151 cells/mm(3) (range, 2 to 1,820) with a high percentage of polymorphonuclear cells (PMNs). Initial blood counts showed mild leukocytosis and pronounced PMN predominance (78.9 +/- 1.3%). The percentage of PMNs in the peripheral blood decreased in favor of mononuclear cells after 3 days to a pattern more compatible with viral infection as opposed to that suggestive for bacteria in the beginning. Mean cerebrospinal fluid values of protein, glucose and lactate and the C-reactive protein were mildly elevated or normal. Nonpolio enteroviruses were detected in 30 of 70 patients. Subsequent serotyping revealed echovirus type 13 (13 patients), type 6 (2), type 30 (1) and coxsackie B virus type 5 (2). There were no differences in demographic or clinical data between enterovirus positive and negative patients. CONCLUSIONS: Even though individual laboratory values do not solely allow discrimination between viral and bacterial meningitis, the combined epidemiologic, clinical and laboratory data facilitate the diagnosis of aseptic meningitis in most cases. Viral diagnostics, identifying echovirus type 13 that thus far has not been associated with epidemics of meningitis, adds important epidemiologic information.     

Differential Interferon Responses Enhance Viral Epitope Generation by Myocardial Immunoproteasomes in Murine Enterovirus Myocarditis

Murine models of coxsackievirus B3 (CVB3)-induced myocarditis mimic the divergent human disease course of cardiotropic viral infection, with host-specific outcomes ranging from complete recovery in resistant mice to chronic disease in susceptible hosts. To identify susceptibility factors that modulate the course of viral myocarditis, we show that type-I interferon (IFN) responses are considerably impaired in acute CVB3-induced myocarditis in susceptible mice, which have been linked to immunoproteasome (IP) formation. Here we report that in concurrence with distinctive type-I IFN kinetics, myocardial IP formation peaked early after infection in resistant mice and was postponed with maximum IP expression concomitant to massive inflammation and predominant type-II IFN responses in susceptible mice. IP activity is linked to a strong enhancement of antigenic viral peptide presentation. To investigate the impact of myocardial IPs in CVB3-induced myocarditis, we identified two novel CVB3 T cell epitopes, virus capsid protein 2 [285-293] and polymerase 3D [2170-2177]. Analysis of myocardial IPs in CVB3-induced myocarditis revealed that myocardial IP expression resulted in efficient epitope generation. As opposed to the susceptible host, myocardial IP expression at early stages of disease corresponded to enhanced CVB3 epitope generation in the hearts of resistant mice. We propose that this process may precondition the infected heart for adaptive immune responses. In conclusion, type-I IFN-induced myocardial IP activity at early stages coincides with less severe disease manifestation in CVB3-induced myocarditis.Myocarditis is often induced by cardiotropic viruses: in about 20% of patients, viral myocarditis leads to its sequela dilated cardiomyopathy, which is linked to chronic inflammation and persistence of cardiotropic viruses.^1,2,3,4 Dilated cardiomyopathy is the most common cause of heart failure in young patients and appears to be a major cause of sudden unexpected death in this cohort. Enteroviruses, including group-B coxsackieviruses, have been linked to the development of myocarditis and dilated cardiomyopathy associated with adverse prognosis.^5,6 Well-established murine models of coxsackievirus B3 (CVB3) myocarditis mimic the human disease progress and are valuable in delineating the underlying mechanisms that determine the divergent courses of myocarditis^7,8,9,10: resistant C57BL/6 mice eliminate the virus following mild acute myocarditis; no chronic inflammation is detected. In contrast, major histocompatibility complex (MHC)-matched A.BY/SnJ mice develop severe acute infection and ongoing chronic myocarditis, thus conferring susceptibility to chronic disease.^7,9Host responses to viral infection trigger the release of interferons (IFNs). IFNs of the α/β subtype are assigned to type I IFNs, whereas IFN-γ is the only type II IFN. IFNs exert numerous antiviral effects in innate and adaptive immunity.¹¹ Although type I IFN-receptor-deficiency was not associated with a dramatic effect on early viral replication in the heart, type I IFN signaling was found to be essential for the prevention of early death due to CVB3-infection.¹² The extraordinary impact of type I IFNs was substantiated in a recent study illustrating acute fulminant infection and chronic disease progression in IFN-β deficient mice.¹³ Deletion of type II IFN receptors was not associated with enhanced mortality in CVB3-infection.¹² IFN-γ responses were shown to be protective in cellular immunity in CVB3-infection.⁹ In addition, expression of IFN-γ conferred protection in enterovirus myocarditis, which may be linked to the activation of nitric oxide-mediated antiviral activity of macrophages.^14,15 Thus, both type I and type II IFN are active in CVB3- myocarditis.One downstream effect of IFN signaling is the induction of immunoproteasome (IP) formation in the target organ of the immune response. Particularly IFN-γ was shown to induce IP expression.^16,17,18 Efficient generation of viral epitopes that stimulate CD8⁺ T cells strongly relies on host-cell IP and, in addition, protein degradation by proteasomes is also essential in the regulation of inflammatory and stress responses, cell cyclus, and apoptosis control.¹⁹ The 20S proteasome as the catalytic core of the proteasome resembles a cylinder-shaped structure of stacked heptameric rings formed by either α or β subunits. The proteolytic function of the so-called standard proteasome is restricted to the β1, β2, and β5 subunit.²⁰ Three alternative catalytic subunits, the so-called immunosubunits β1i, β2i, and β5i, which are incorporated into 20S proteasomes, thus forming IP with altered catalytic characteristics, are expressed on cytokine stimulation.^21,22 It is highly notable that IP activity is linked to a strong enhancement of antigenic viral peptide presentation.^{23,24,25,26,27}Cardiac proteasomes contribute to the modulation of cardiac function in health and disease.²⁸ However, apart from the reported observation that IPs are expressed in the myocardium in acute CVB3 myocarditis, their functional impact has not been studied so far.¹⁰ The present study focuses on IFN-induced myocardial IP activity in CVB3 myocarditis.     

Calcium responses mediated by type 2 IP3-receptors are required for osmotic volume regulation of retinal glial cells in mice

Prevention of osmotic swelling of retinal glial (Müller) cells is required to avoid detrimental decreases in the extracellular space volume during intense neuronal activity. Here, we show that glial cells in slices of the wildtype mouse retina maintain the volume of their somata constant up to ∼4 min of perfusion with a hypoosmolar solution. However, calcium chelation with BAPTA/AM induced a rapid swelling of glial cell bodies. In glial cells of retinas from inositol-1,4,5-trisphosphate-receptor type 2-deficient (IP₃R2^−/−) mice, hypotonic conditions caused swelling of the cell bodies without delay. Exogenous ATP (acting at P2Y₁ receptors) prevented the swelling of glial cells in retinal slices from wildtype but not from IP₃R2^−/− mice. Müller cells from IP₃R2^−/− mice displayed a strongly reduced amplitude of the ATP-evoked calcium responses as compared to cells from wildtype mice. It is concluded that endogenous calcium signaling mediated by IP₃R2 is required for the osmotic volume regulation of retinal glial cells.