Altered hypothalamus-pituitary-adrenal axis function: A relevant factor in the comorbidity of atopic eczema and attention deficit/hyperactivity disorder?

Epidemiological data show a significant association between childhood atopic eczema (AE) and an increased risk to develop attention deficit/hyperactivity disorder (ADHD). However, the underlying mechanisms of the comorbidity of AE and ADHD are mostly unknown. We investigated whether alterations of hypothalamus-pituitary-adrenal (HPA) axis function represent a shared feature of AE and ADHD potentiating AE-ADHD comorbidity. Children aged 6-12 years with AE, ADHD, or comorbid AE + ADHD and healthy control (HC) children were examined cross-sectionally (N = 145). To evaluate HPA axis function, salivary cortisol in response to psychosocial stress (Trier Social Stress Test for Children, TSST-C), after awakening (cortisol awakening response, CAR), and throughout the day (short diurnal profile) and hair cortisol capturing long-term HPA axis activity were assessed. Quantile regression analyses showed an attenuated cortisol response (% maximum change) to the TSST-C in children with ADHD compared to HC. A diminished cortisol response to acute stress was also observed in the comorbid AE + ADHD group, in which the reduction was numerically even more pronounced. Contrary to our previous findings, no alteration of the cortisol response to the TSST-C was observed in children with AE. However, in children with AE, increased ADHD-like behavior (i.e., inattention, impulsivity, and overall ADHD symptom severity) was associated with a reduced HPA axis response to acute stress. No such associations were observed in children without AE. Groups did not differ in CAR, short diurnal profile, and hair cortisol. These findings underscore the potential relevance of HPA axis function in the pathophysiology of AE and ADHD with emphasis on stress reactivity. Additional studies are required to further explore the separate and joint role of the HPA axis in the pathophysiology of AE and ADHD.

[Genetic methods for analysis of autoinflammatory diseases]. / Genetische Methoden für die Analyse autoinflammatorischer Erkrankungen.

Over the past years the phenotypic and genetic spectrum of autoinflammatory diseases has continuously increased. Moreover, several monogenic autoinflammatory disorders have now been identified where febrile episodes are not among the leading symptoms and which can be accompanied by autoimmune phenomena and susceptibility to infections. Autoinflammatory conditions that are characterized by uncontrolled activity of cytokines, such as interleukin-1 beta (IL1ß), tumor necrosis factor alpha (TNF-α) and type 1 interferons (1-IFN), are amenable to specific therapeutic interventions. Thus, identification of the underlying genetic cause is important. During diagnostic work-up, genetic testing of a patient with autoinflammation should be carried out depending on the clinical presentation. If a distinct disorder is suspected, sequencing of the causative gene should be performed. Genetic tests using next generation sequencing (NGS), such as panel sequencing, exome sequencing and array comparative genomic hybridization (CGH) can be carried out if symptoms cannot be assigned to a specific disease entity.

Heparin modification of a biomimetic bone matrix modulates osteogenic and angiogenic cell response in vitro.

In this study, the effect of heparin-modified collagen type I/hydroxyapatite (HA) nanocomposites on key processes of bone regeneration - osteogenesis and angiogenesis - was characterised in vitro. Two approaches were applied for heparin modification: it was either integrated during material synthesis (in situ) or added to the porous scaffolds after their fabrication (post). Cultivation of human bone marrow-derived stromal cells (hBMSC), in heparin-modified versus heparin-free scaffolds, revealed a positive effect of the heparin modification on their proliferation and osteogenic differentiation. The amount of heparin rather than the method used for modification influenced the cell response favouring proliferation at smaller amount (30 mg/g collagen) and differentiation at larger amount (150 mg/g collagen). A co-culture of human umbilical vein endothelial cells (HUVEC) and osteogenically induced hBMSC was applied for in vitro angiogenesis studies. Pre-vascular networks have formed in the porous structure of scaffolds which were not modified with heparin or modified with a low amount of heparin (30 mg/g collagen). The modification with higher heparin quantities seemed to inhibit tubule formation. Pre-loading of the scaffolds with VEGF influenced formation and stability of the pre-vascular structures depending on the presence of heparin: In heparin-free scaffolds, induction of tubule formation and sprouting was more pronounced whereas heparin-modified scaffolds seemed to promote stabilisation of the pre-vascular structures. In conclusion, the modification of mineralised collagen with heparin by using both approaches was found to modulate cellular processes essential for bone regeneration; the amount of heparin has been identified to be crucial to direct cell responses.

[Caspase-1 regulates autoinflammation in rheumatic diseases]. / Caspase-1 als Regulator der Autoinflammation bei rheumatischen Erkrankungen.

Caspase-1 is an integral regulator of the innate immune system. Its core functions are the processing and secretion of the proinflammatory cytokines interleukin 1ß (IL-1 beta) and IL-18 and the initiation of proinflammatory cell death, which is referred to as pyroptosis. Activation of caspase-1 plays a pivotal role during immune defense mechanisms against infections by the innate immune system. Dysregulated activation of caspase-1 has been recognized to be involved in the pathophysiology of a constantly increasing number of inflammatory diseases. This article gives an overview of the regulation and function of caspase-1 and its involvement in monogenic, polygenic and/or polyetiological rheumatic diseases.

Altered expression of IL-10 family cytokines in monocytes from CRMO patients result in enhanced IL-1ß expression and release.

Chronic recurrent multifocal osteomyelitis (CRMO) is characterized by reduced activation of protein kinases ERK1 and 2 in monocytes resulting in impaired IL-10 expression. IL10 and its homologs IL19 and IL20 are organized in the IL10 cluster on chromosome 1q32. IL-10 and IL-19 are immune-regulatory cytokines, while IL-20 acts in a pro-inflammatory manner. The NLRP3 inflammasome, a multi-protein complex forming in response to innate stimuli, mediates IL-1ß cleavage and release. Here, we investigated IL-10-related cytokine expression in CRMO monocytes, underlying molecular events, and effects on inflammatory responses. We observed reduced anti-inflammatory IL-10 and IL-19 expression, and enhanced IL-20 expression in CRMO monocytes. Reduced IL-10 and IL-19 expression was associated with impaired Sp-1 recruitment to regulatory regions, contributing to NLRP3 inflammasome activation, which may induce inflammatory bone-loss. Our findings underscore the importance of balanced receptor-, cell-, and tissue-specific cytokine expression for immune homeostasis, providing additional arguments for cytokine blocking strategies in CRMO.

Profiling of the human monocytic cell secretome by quantitative label-free mass spectrometry identifies stimulus-specific cytokines and proinflammatory proteins.

The immune response to pathogens or injury relies on the concerted release of cytokines and proteins with biological activity important for host protection, host defense, and wound healing. Consequently, the secretome of immune cells provides a promising resource for discovery of specific molecular markers and targets for pharmacological intervention. Here, we employ label-free MS for unbiased, quantitative profiling of the human monocytic cell secretome under different proinflammatory stimuli. The quantitative secretome profiles reveal the highly stimulus-dependent cellular response and differential, specific secretion of more than 200 proteins, including important proinflammatory proteins and cytokines.

Biological properties and regulation of IL-10 related cytokines and their contribution to autoimmune disease and tissue injury.

The IL-10 cytokine family has nine members, four of which are located in the IL10 cluster on chromosome 1q32. These cytokines are the immune regulatory cytokine IL-10 itself, and the IL-20 subfamily members IL-19, IL-20, and IL-24. IL-10 instructs innate and adaptive immune responses and limits pro-inflammatory responses in order to prevent tissue damage. The IL-20 subfamily members are involved in host defense mechanisms, particularly from epithelial cells and seem essential for tissue integrity. Dysregulation of IL-10 family cytokines results in inflammation and autoimmune disease. Here, we discuss cellular source, gene regulation, and receptor complexes of cytokines in the IL10 cluster and their contribution to autoimmune disease and tissue damage.

"Mutation negative" familial cold autoinflammatory syndrome (FCAS) in an 8-year-old boy: clinical course and functional studies.

Cryopyrinopathies are a subgroup of autoinflammatory syndromes. Most cases have mutations in the CIAS1/NLRL3 gene, encoding the cryopyrin/NLRP3 protein. Cryopyrin, together with other proteins, is involved in the assembly of the cryopyrin/NLRP3 inflammasome. Mutations in CIAS1/NLRP3 result in increased IL-1ß cleavage from biologically inactive pro-IL-1ß. This results in systemic inflammation and three associated disorders of different severity, forming a clinical continuum with overlapping features. The mildest from, familial cold autoinflammatory syndrome (FCAS), is characterized by remitting fevers, urticaria-like rash, polyarthralgia/arthritis, and usually caused by cold exposure. More severe forms are Muckle-Wells syndrome (MWS) and CINCA/NOMID. We report an 8-year-old boy with FCAS, who presented with overlapping features with MWS. He showed good response to seasonal anakinra treatment. Mutation analysis in CIAS1/NLRP3, PYCARD, and CASP1 was performed. Serum cytokine profiles, and cytokine expression from resting monocytes, and in response to mild hypothermia, and LPS stimulation were determined. Mutations in CIAS1/NLRP3, PYCARD, and CASP1 were not found. In response to mild hypothermia, an enhanced IL-1ß expression by patient monocytes resulted in increased IL-6 and TNF-α secretion, as compared to control cells. The addition of the IL-1ß receptor antagonist (anakinra) reversed these effects. In response to LPS stimulation, patient monocytes produced high level of IL-1ß, IL-6 and TNF-α. This was markedly less pronounced in control monocytes. FCAS results in cold-induced cytokine dysregulation and systemic inflammation. Symptoms can be treated, using IL-1ß antagonists. Further research is warranted, particularly in order to investigate pathophysiological mechanisms in "mutation negative" individuals.

Chronic non-bacterial osteomyelitis is associated with impaired Sp1 signaling, reduced IL10 promoter phosphorylation, and reduced myeloid IL-10 expression.

Chronic non-bacterial osteomyelitis (CNO) is an auto-inflammatory disorder that affects the skeletal system. Interleukin (IL-)10 is an immune-modulatory cytokine that controls inflammation, and limits inflammatory cytokine responses. Dysregulation of IL-10 expression has been shown to result in autoimmune and infectious diseases. We investigated IL-10 expression by monocytic cells from CNO patients and controls. In response to stimulation with LPS, IL-10 expression from CNO monocytes was reduced (p<0.001). This was independent of IL10 promoter polymorphisms. Thus, we investigated Sp1 recruitment to the IL10 promoter and saw markedly reduced binding in CNO monocytes. This was accompanied with reduced phosphorylation of histone H3 serine 10 (H3S10), an activating epigenetic mark. Impaired recruitment of Sp1 to the IL10 promoter, and reduced H3S10 phosphorylation, may be a reflection of deficient MAPK signaling in CNO monocytes in response to LPS stimulation. Thus, we have discovered a mechanism that may be central in the pathophysiology of CNO.

Crosstalk of osteoblast and osteoclast precursors on mineralized collagen--towards an in vitro model for bone remodeling.

Bone remodeling and, therefore, integration of implant materials require the coordinated regulation of osteoblast and osteoclast activity. This is why the in vitro evaluation of biomaterials for bone regeneration should involve not only the analysis of osteoblast differentiation but also the formation and differentiation of osteoclasts. In the present study, we applied a material made of mineralized collagen I that mimics extracellular bone matrix to establish a culture system, which allows the cocultivation of human monocytes and human mesenchymal stem cells (hMSCs), which were differentiated into osteoclast-like cells and osteoblasts, respectively. Both cell types were cultivated on membrane-like structures from mineralized collagen. Transwell inserts were used to spatially separate the cell types but allowed exchange of soluble factors. The osteoclastogenesis and osteogenic differentiation were evaluated by analysis of gene expression, determination of alkaline phosphatase (ALP), and tartrate-resistant acidic phosphatase (TRAP) activity. Furthermore, cell morphology was studied using scanning electron and transmission electron microscopy. Osteogenically induced hMSC showed an increased specific ALP activity as well as increased gene expression of gene coding for alkaline phosphatase (ALPL), when cocultivated with differentiating osteoclasts. Adipogenic differentiation of hMSCs was suppressed by the presence of osteoclasts as indicated by a major decrease in adipocyte cell number and a decrease in gene expression of adipogenic markers. The formation of multinucleated osteoclasts seems to be decreased in the presence of osteogenically induced hMSC as indicated by electron microscopic evaluation and determination of TRAP activity. However, gene expression of osteoclast markers was not decreased in coculture with osteogenically induced hMSC.

IL10 promoter polymorphisms are associated with systemic onset juvenile idiopathic arthritis (SoJIA).

OBJECTIVES: Juvenile idiopathic arthritis (JIA) is a rare, but severe cause of childhood disability. Systemic onset JIA (SoJIA) accounts for approximately 5.8% of all JIA cases and is associated with cytokine dysregulation, including interleukin (IL-)1, IL-6 and tumour necrosis factor (TNF-)α. IL-10 is an immuno-regulatory cytokine, which in part regulates inflammation by controlling inflammatory cytokine expression. Dysregulation in IL-10 expression and certain single nucleotide polymorphisms (SNPs) in the IL-10 promoter were shown to be associated with autoimmune and infectious diseases. METHODS: Genomic DNA-samples from SoJIA patients from two German Paediatric Rheumatology centres, and healthy controls were analysed for three well defined IL-10 promoter SNPs (-1082G>A, -819C>T, and -592C>A). These SNPs are in tight linkage disequilibrium, and result in three predominant (or 'classical') haplotypes: ATA, ACC, and GCC. ATA and ACC are associated with low and medium, GCC is associated with high IL-10 expression. RESULTS: Here, we show a strong association of IL-10 promoter polymorphisms with SoJIA. We demonstrate a significantly increased frequency of low IL-10 expressing -1082A/A alleles, the medium IL-10 expressing ACC haplotype (p=0.01), and an enrichment of the rare GTC haplotype (p<0.001) in patients with SoJIA. Heterozygous -1082G/A alleles (p<0.001), and the GCC haplotype (p<0.001) on one allele protect from developing SoJIA. CONCLUSIONS: This suggests a central role of the immuno-regulatory cytokine IL-10 in the pathogenesis of SoJIA.

Twenty year follow up of a patient with a new de-novo NLRP3 mutation (S595G) and CINCA syndrome.

We report on a 22-year-old girl with a history of recurrent febrile episodes, chronic arthritis, urticarial rash, and neurological symptoms including right hemiparesis, internal hydrocephalus, mental retardation, progressive deafness, and visual impairment. Treatment starting at age 20 months, including different combinations of immunosuppressive and antiinflammatory drugs such as corticosteroids and anti-TNFalpha antibody, was unsuccessful. Four years ago, we found a heterozygous S595G mutation in the NLRP3 gene of this patient. This prompted us to introduce anakinra, which resulted in considerable improvement of the patient's complaints.

X-linked chronic granulomatous disease (CGD) caused by an intra-exonic splice mutation (CYBB exon 3, c.262G->A) is mimicking juvenile sarcoidosis.

BACKGROUND: Chronic granulomatous disease (CGD) is caused by mutations in genes encoding nicotinamide dinucleotide phosphate (NADPH) oxidase subunits. CASE REPORT: A boy was diagnosed as having juvenile sarcoidosis because he presented with cervical and pulmonary lymphadenopathy with epitheloid cells and granuloma formation and high angiotensin converting enzyme. Later, a liver abscess was diagnosed. CGD was established by a dihydrorhodamine 123 (DHR) assay and genetic analysis revealed an unusual intra-exonic splice mutation in the CYBB gene encoding gp91-phox. It did not change the amino acid sequence and allowed for residual NADPH oxidase activity explaining the late onset of the disease. CONCLUSION: CGD is an important differential diagnosis of juvenile sarcoidosis.

NADPH oxidase is not required for spontaneous and Staphylococcus aureus-induced apoptosis of monocytes.

Reactive oxygen intermediates (ROI) generated in the respiratory burst reaction are crucial for the killing of bacteria and fungi in phagocytes. The key enzyme for the respiratory burst reaction is the NADPH oxidase. Reactive oxygen intermediates have additionally been proposed to be of general importance for the expression of FAS and soluble FAS ligand (sFASL) and the subsequent induction of apoptosis. This conclusion has been drawn from the observation that neutrophils with an inborn lack of the NADPH oxidase as well as cell lines and monocytes with artificially blocked NADPH oxidase exhibit impaired apoptosis. Being one of the few centers caring for patients with chronic granulomatous disease (CGD) who exhibit an inborn lack of NADPH oxidase, we had the unique opportunity to determine the role of the NADPH oxidase for apoptosis in monocytes with otherwise unmanipulated cells of these patients (CGD monocytes). We compared the expression of FAS on monocytes and the concentration of sFASL in the supernatant between CGD monocytes and healthy donors undergoing spontaneous apoptosis. Neither the expression of FAS nor the concentration of sFASL was decreased in CGD monocytes. We further compared spontaneous apoptosis and apoptosis occurring after the phagocytosis of Staphylococcus aureus in CGD monocytes to monocytes of healthy controls. In these experiments we could not determine any significant impairment of apoptosis in CGD monocytes. Our data indicate for the first time that in an unmanipulated human model a functional NADPH oxidase is not crucial for the apoptosis of monocytes and disprove a general role of ROI for the induction of apoptosis in phagocytes.

Periodic fever (TRAPS) caused by mutations in the TNFalpha receptor 1 (TNFRSF1A) gene of three German patients.

TNF-receptor-associated periodic syndrome (TRAPS) is a recently recognized disorder characterized by prolonged attacks of high fever and severe localized inflammation. TRAPS is caused by dominant mutations in the 55 kDa TNF receptor gene (TNFRSF1A). We here describe three German TRAPS patients of two families with Cys30-->Arg and Thr50-->Met mutations, respectively. Both mutations have already been observed before in other nonrelated families. The Thr50-->Met amino acid exchange, caused by an ACG-->ATG transition, has been reported in two other families of different ethnic background. The possibility that the ACG-->ATG sequence alteration is a mutational hot spot causing TRAPS is discussed. Furthermore, we describe and discuss the symptoms of our patients, possible inducers of febrile attacks, and treatments which the patients had received when their diagnoses were still unknown.

The development of lymphomas in families with autoimmune lymphoproliferative syndrome with germline Fas mutations and defective lymphocyte apoptosis.

Lymphomas were studied in kindreds with autoimmune lymphoproliferative syndrome (ALPS; Canale-Smith syndrome), a disorder of lymphocyte homeostasis usually associated with germline Fas mutations. Fas (CD95/APO-1) is a cell surface receptor that initiates programmed cell death, or apoptosis, of activated lymphocytes. Lymphoma phenotype was determined by immunohistochemistry, frequency of CD3(+)CD4(-)CD8(-) T-cell-receptor alpha/beta cells by flow cytometry, nucleotide sequences of the gene encoding Fas (APT1, TNFRSF6), and the percentage of lymphocytes undergoing apoptosis in vitro. Of 223 members of 39 families, 130 individuals possessed heterozygous germline Fas mutations. Eleven B-cell and T-cell lymphomas of diverse types developed in 10 individuals with mutations in 8 families, up to 48 years after lymphoproliferation was first documented. Their risk of non-Hodgkin and Hodgkin lymphomas, respectively, was 14 and 51 times greater than expected (each P <.001). Investigation of these 10 patients and their relatives with Fas mutations revealed that all had defective lymphocyte apoptosis and most had other features of ALPS. The tumor cells retained the heterozygous Fas mutations found in the peripheral blood and manifested defective Fas-mediated killing. These data implicate a role for Fas-mediated apoptosis in preventing B-cell and T-cell lymphomas. Inherited defects in receptor-mediated lymphocyte apoptosis represent a newly appreciated risk factor for lymphomas.

Increased susceptibility of a carrier of X-linked chronic granulomatous disease (CGD) to Aspergillus fumigatus infection associated with age-related skewing of lyonization.

Chronic granulomatous disease (CGD) is an inherited disorder characterized by the inability of phagocytes to generate normal amounts of superoxide (O2-), leaving patients susceptible to life-threatening infections. It was previously assumed that once carriers of the X-linked form of CGD were found to have 30% or more of functionally normal neutrophils, they would be free of risk for infection because the lyonization ratio was believed to be constant. Our report strongly contradicts this assumption. A 45-year-old X-CGD carrier had approximately 40% of normal neutrophils in her peripheral blood at age 21 years. Recently, she contracted a life-threatening pulmonary infection with Aspergillus fumigatus. After recovery, the ratio of normal-to-nonfunctional neutrophils was re-evaluated. She was found to have only 6-8% of normal neutrophils, suggesting that a striking decrease in the number of normal cells over the past 25 years was the reason for an increased susceptibility to Aspergillus infection. We conclude that age-related acquired skewing of the lyonization ratio can result in an increased susceptibility to life-threatening infections in X-CGD carriers.

[Mucoviscidosis screening of newborn infants in the Dresden district. Results from 1 June 1996 to 31 March 2000]. / Mukoviszidose-Screening bei Neugeborenen im Regierungsbezirk Dresden. Ergebnisse vom 1.6.1996 bis zum 31.3.2000.

PROBLEM: Cystic fibrosis (CF) is the most common congenital defect of metabolism in Europe. Therefore we tried to detect this disease as early as possible before clinical symptoms occur. Thus early diagnosis can be the basis for an early start of treatment. PATIENTS AND METHODS: As part of a complete neonatal screening program in our region we investigated the concentration of immuno-reactive trypsin (IRT) in dried blood samples. Genomic investigation of the same blood sample for the most common CF mutations was performed when a critical value of IRT was exceeded. RESULTS: From 6/1996 until 3/2000 (46 months) we investigated the blood of 49,926 newborn children. Due to a high IRT value (> 70 ng/ml) in 579 cases, a genomic investigation was performed. In 38 children we detected one of the three most frequent CF mutations (delta F508, G551D, R553X) by polymerase chain reaction (PCR). The sweat test (pilocarpine iontophoresis) confirmed cystic fibrosis in 8 newborns. Four times a homocygocity for the mutation delta F508 was found and four times a compound heterocygocity (one time delta F508/R553X und three times delta F508/others). Only three of these eight CF patients already had clinical symptoms of the disease at this time, only in one case had this diagnosis been considered. An additional newborn with meconium ileus had been diagnosed as cystic fibrosis before performing the screening. Up to now we have not found any case of false negative testing. CONCLUSION: We found this procedure of neonatal testing practicable and therefore recommend its continuation. The genomic test should include the search for additional CF mutations. As alternative method a second IRT-test should be considered at the end of the first month of life for those children with initial IRT-concentrations above 150 ng/ml and without evidence of the three tested CFTR-mutations.

Listeria monocytogenes and recurrent mycobacterial infections in a child with complete interferon-gamma-receptor (IFNgammaR1) deficiency: mutational analysis and evaluation of therapeutic options.

We describe the history of a girl with interferon-gamma-receptor (IFNgammaR1) deficiency and studies performed to identify the molecular and clinical characteristics of this recently discovered disorder. This is the first report of a child from Northern Europe with IFNgammaR1 deficiency. The patient, now 7 years old, first presented with swelling and reddening at the Bacille Calmette-Guerin (BCG) vaccination site, swelling of lymph nodes, hepatomegaly, and an unusually severe varicella rash at the age of 4 months. At that time, she was diagnosed with BCG histiocytosis without typical granuloma formation and was treated with antituberculous agents. During the clinical course of her illness, several different types of atypical mycobacteria and (for the first time in an IFNgammaR1-deficient patient) Listeria monocytogenes were detected. Flow cytometric analysis showed that the patient's monocytes could not bind a monoclonal antibody specific for the IFNgamma-receptor. Our analysis of mRNA derived from the alpha-chain (IFNgammaR1) gene of this receptor revealed deletions of 173 bp and 4 bp in cDNA sequences originating from individual alleles. The 173 bp deletion was located between nucleotide positions 200 and 372, exactly matching those of exon 3, and the 4 bp deletion was located between nucleotide positions 561 and 564 of the coding region of the cDNA. Analysis of genomic DNA revealed the presence of a G to T transition at the 5'end of the splice consensus sequence of intron 3, which explains the absence of exon 3. The other allele carried the 4-base-pair deletion (ACTC) at nucleotide positions 15-18 of exon 5. Twelve months after an allo\geneic bone marrow transplantation, the patient had clinically improved.