Rationale for an adjunctive therapy with fenofibrate in pharmacoresistant nocturnal frontal lobe epilepsy (NFLE).

Nocturnal Frontal Lobe Epilepsy (NFLE) is characterized by onset during infancy or childhood with persistence in adulthood, family history of similar nocturnal episodes simulating non-REM parasomnias (sleep terrors or sleepwalking), general absence of morphological substrates, often by normal interictal electroencephalographical recordings (EEGs) during wakefulness. A family history of epilepsy may be present with Mendelian autosomal dominant inheritance has been described in some families. Recent studies indicate the involvement of neuronal nicotinic acetylcholine receptors (nAChRs) in the molecular mechanisms of NFLE. Mutations in the genes encoding for the α4 (CHRNA4) and ß2 (CHRNB2) subunits of the nAChR induce changes in the biophysical properties of nAChR, resulting generally in a “gain of function”. Preclinical studies report that activation of a nuclear receptor called type peroxisome proliferator-activated receptor (PPAR-α) by endogenous molecules or by medications (e.g. fenofibrate) reduces the activity of the nAChR and, therefore, may decrease the frequency of seizures. Thus, we hypothesize that negative modulation of nAChRs might represent a therapeutic strategy to be explored for pharmacological treatment of this form of epilepsy, which only partially responds to conventional antiepileptic drugs. In fact, carbamazepine, the current medication for NFLE, abolishes the seizures only in one third of the patients. The aim of the project is: 1)_to verify the clinical efficacy of adjunctive therapy with fenofibrate in pharmacoresistant NFLE and ADNFLE patients; focousing on the analysis of the polysomnographic action of the PPAR- agonist (fenofibrate). 2)_to demonstrate the subtended mechanism of efficacy by means of electrophysiological and behavioral experiments in an animal model of the disease: particularly, transgenic mice carrying the mutation in the nAChR 4 subunit (Chrna4S252F) homologous to that found in the humans. Given that a PPAR-α agonist, FENOFIBRATE, already clinically utilized for lipid metabolism disorders, provides a promising therapeutic avenue in the treatment of NFLE\ADNFLE.

Der Einfluss von Chemotherapeutika mit Hypoxie-induzierbarer Faktor (HIF)-modulierendem Potential sowie eines Verlustes des HIF-Regulators von Hippel-Lindau (VHL) auf den Phänotyp und die Funktion dendritischer Zellen

Der Transkriptionsfaktor Hypoxie-induzierbarer Faktor (HIF) gibt dem Organismus die Möglichkeit, sich auf zellulärer Ebene an unterschiedliche Sauerstoffverhältnisse anzupassen. Vor allem Tumorzellen weisen aufgrund ihres ungeregelten Wachstums und der daraus resultierenden unzureichenden Durchblutung (hypoxisches Milieu) eine erhöhte HIF-Expression auf. Die erhöhte HIF-Expression stellt somit ein interessantes Ziel in der Tumortherapie dar. Dendritische Zellen (DCs) besitzen eine bedeutende Rolle in der Generierung und Modulierung von Antitumor-Immunantworten. Aus diesem Grund ist es überaus wichtig zu wissen, welche Effekte Antitumor-Agenzien, im Besonderen HIF-Inhibitoren, auf DCs und somit auch auf die Generierung von adäquaten Immunantworten besitzen.rnIm ersten Teil dieser Arbeit wurde aus diesem Grund der Einfluss der Antitumor-Agenzien Geldanamycin (GA) und Topotecan (TPT) auf den Phänotyp und die Funktion von DCs untersucht. Hierfür wurden Monozyten aus humanen, mononukleären, peripheren Blutzellen isoliert und unter DC-differenzierenden Konditionen kultiviert. Diese immaturen monozytenabgeleiteten DCs (Mo-DCs) wurden mithilfe eines Reifungscocktails ausgereift. Die Applikation der Antitumor-Agenzien erfolgte während der Differenzierungs- bzw. Ausreifungsphase. Abhängig vom Reifungsgrad der Mo-DCs konnte ein differentieller Einfluss von GA bzw. TPT auf die DC-Aktivierung beobachtet werden. Eine Behandlung von unstimulierten Mo-DCs mit GA resultierte in einer partiellen DC-Aktivierung basierend auf einem noch unbekannten Mechanismus. Ebenso führte eine Behandlung von unstimulierten Mo-DCs mit TPT zu einer funktionellen Aktivierung der DCs, die mit einer vermehrten AKT-Expression korrelierte. Die jeweilige Koapplikation der Antitumor-Agenzien mit dem DC-Reifungscocktail führte zu einer reduzierten DC-Aktivierung, die sich in einer verminderten NF-κB-Aktivierung, einer verringerten Oberflächenexpression der getesteten kostimulatorischen Moleküle, einer verringerten Migrationsfähigkeit und einem reduzierten Zellstimulierungspotential widerspiegelte.rnDie autosomal dominant vererbte Tumorerkrankung von Hippel-Lindau (VHL) wird häufig durch genetische Mutationen des als HIF-Negativregulator fungierenden VHL-Gens hervorgerufen. Patienten, die an dem VHL-Syndrom erkrankt sind, weisen oft benigne oder maligne Tumore und Zysten in den verschiedensten Organsystemen auf. Wie schon zuvor erwähnt, besitzen DCs eine essentielle Rolle in der Initiierung und Aufrechterhaltung von Antitumor-Immunantworten. Deshalb wurde im zweiten Abschnitt der vorliegenden Arbeit untersucht, inwieweit ein partieller Verlust von VHL Auswirkungen auf die Ausprägung desrnPhänotyps und der Funktion von DCs hat. Mittels Cre/lox-Technologie wurden transgene Mäuse mit einem heterozygoten Verlust von Exon 1 bzw. Exon 2 des VHL-Gens generiert. Aus diesen Mäusen wurden Knochenmarkszellen isoliert und unter DC-differenzierenden Konditionen kultiviert. Die immaturen knochenmarkabgeleiteten DCs (BM-DCs) wurden mit LPS ausgereift. Weder der heterozygote Verlust von Exon 1 noch von Exon 2 des VHL-Gens bewirkte eine Veränderung der Oberflächenmarkerexpression, der in vitro-Migrations- undrnEndozytosekapazität, sowie der allogenen T-Zellstimulierungskapazität. Allerdings zeigten Mäuse mit einem partiellen Verlust von Exon 2 im Vergleich zu Kontrollmäusen nach Immunisierung und Provokation mit dem Modellallergen OVA eine verminderte Atemwegshyperreaktion, die möglicherweise auf die beobachtete Abnahme der Migrationsfähigkeit in vivo und die verminderte OVA-spezifische T-Zellstimulierungskapazität der DCs zurückzuführen ist.

Veränderungen der DNA-Methylierung in Patienten mit AHCY-Defizienz

Die S-adenosyl-L-Homocysteinhydrolase (AHCY)-Defizienz ist eine seltene autosomal rezessive Erbkrankheit, bei der Mutationen im AHCY-Gen die Funktionsfähigkeit des kodierten Enzyms beeinträchtigen. Diese Krankheit führt zu Symptomen wie Entwicklungsverzögerungen, mentaler Retardierung und Myopathie. In der vorliegenden Arbeit wurde der Einfluss der AHCY-Defizienz auf die Methylierung der DNA in Blutproben und Fibroblasten von Patienten mit AHCY-Defizienz, sowie in HEK293- und HepG2-Zelllinien mit AHCY-Knockdown untersucht. Der gesamtgenomische Methylierungsstatus wurde mit Hilfe des MethylFlash ™ Methylated DNA Quantification Kit (Epigentek) bei drei Patienten-Blutproben festgestellt. In den Blutproben von sieben Patienten und Fibroblasten von einem Patienten wurde die Methylierung von DMRs sieben geprägter Gene (GTL2, H19, LIT1, MEST, NESPAS, PEG3, SNRPN) und zwei repetitiver Elemente (Alu, LINE1) mittels Bisulfit-Pyrosequenzierung quantifiziert und durch High Resolution Melting-Analyse bestätigt. Zusätzlich wurde eine genomweite Methylierungsanalyse mit dem Infinium® HumanMethylation450 BeadChip (Illumina) für vier Patientenproben durchgeführt und die Expression von AHCY in Fibroblasten mittels Expressions-qPCR und QUASEP-Analyse untersucht. Die Methylierungsanalysen ergaben eine Hypermethylierung der gesamtgenomischen DNA und stochastische Hypermethylierungen von DMRs geprägter Gene bei einigen Patienten. Die HEK293- und HepG2-Zelllinien wiesen dagegen hauptsächlich stochastische Hypomethylierungen an einigen DMRs geprägter Gene und LINE1-Elementen auf. Die genomweite Methylierungsarray-Analyse konnte die Ergebnisse der Bisulfit-Pyrosequenzierung nicht bestätigen. Die Expressionsanalysen der AHCY-defizienten Fibroblasten zeigten eine verminderte Expression von AHCY, wobei beide Allele etwa gleich stark transkribiert wurden. Die Ergebnisse deuten darauf hin, dass die AHCY-Defizienz eine gute Modellerkrankung für die Untersuchung biologischer Konsequenzen von Methylierungsstörungen im Rahmen der Epigenetik-Forschung sein könnte. Sie ist unseres Wissens die erste monogene Erkrankung mit symptomaler DNA-Hypermethylierung beim Menschen.

Growth hormone (GH) deficiency type II: a novel GH-1 gene mutation (GH-R178H) affecting secretion and action

Context and Objective: Main features of the autosomal dominant form of GH deficiency (IGHD II) include markedly reduced secretion of GH combined with low concentrations of IGF-I leading to short stature. Design, Setting, and Patients: A female patient presented with short stature (height -6.0 sd score) and a delayed bone age of 2 yr at the chronological age of 5 yr. Later, at the age of 9 yr, GHD was confirmed by standard GH provocation test, which revealed subnormal concentrations of GH and a very low IGF-I. Genetic analysis of the GH-1 gene revealed the presence of a heterozygous R178H mutation. Interventions and Results: AtT-20 cells coexpressing both wt-GH and GH-R178H showed a reduced GH secretion after forskolin stimulation compared with the cells expressing only wt-GH, supporting the diagnosis of IGHD II. Because reduced GH concentrations found in the circulation of our untreated patient could not totally explain her severe short stature, functional characterization of the GH-R178H performed by studies of GH receptor binding and activation of the Janus kinase-2/signal transducer and activator of transcription-5 pathway revealed a reduced binding affinity of GH-R178H for GH receptor and signaling compared with the wt-GH. Conclusion: This is the first report of a patient suffering from short stature caused by a GH-1 gene alteration affecting not only GH secretion (IGHD II) but also GH binding and signaling, highlighting the necessity of functional analysis of any GH variant, even in the alleged situation of IGHD II.

ABCA4 and ROM1: Implications for modification of the PRPH2-associated macular dystrophy phenotype

To identify the causative mutation leading to autosomal dominant macular dystrophy, cone dystrophy, and cone-rod dystrophy in a five-generation family and to explain the high intrafamilial phenotypic variation by identifying possible modifier genes.

Inherited cavernous malformations of the central nervous system: clinical and genetic features in 19 Swiss families

Cavernous malformations (CCMs) are benign, well-circumscribed, and mulberry-like vascular malformations that may be found in the central nervous system in up to 0.5% of the population. Cavernous malformations can be sporadic or inherited. The common symptoms are epilepsy, hemorrhages, focal neurological deficits, and headaches. However, CCMs are often asymptomatic. The familiar form is associated with three gene loci, namely 7q21-q22 (CCM1), 7p13-p15 (CCM2), and 3q25.2-q27 (CCM3) and is inherited as an autosomal dominant trait with incomplete penetrance. The CCM genes are identified as Krit 1 (CCM1), MGC4607 (CCM2), and PDCD10 (CCM3). Here, we present the clinical and genetic features of CCMs in 19 Swiss families. Furthermore, surgical aspects in such families are also discussed.

Uromodulin is expressed in renal primary cilia and UMOD mutations result in decreased ciliary uromodulin expression

Uromodulin (UMOD) mutations are responsible for three autosomal dominant tubulo-interstitial nephropathies including medullary cystic kidney disease type 2 (MCKD2), familial juvenile hyperuricemic nephropathy and glomerulocystic kidney disease. Symptoms include renal salt wasting, hyperuricemia, gout, hypertension and end-stage renal disease. MCKD is part of the 'nephronophthisis-MCKD complex', a group of cystic kidney diseases. Both disorders have an indistinguishable histology and renal cysts are observed in either. For most genes mutated in cystic kidney disease, their proteins are expressed in the primary cilia/basal body complex. We identified seven novel UMOD mutations and were interested if UMOD protein was expressed in the primary renal cilia of human renal biopsies and if mutant UMOD would show a different expression pattern compared with that seen in control individuals. We demonstrate that UMOD is expressed in the primary cilia of renal tubules, using immunofluorescent studies in human kidney biopsy samples. The number of UMOD-positive primary cilia in UMOD patients is significantly decreased when compared with control samples. Additional immunofluorescence studies confirm ciliary expression of UMOD in cell culture. Ciliary expression of UMOD is also confirmed by electron microscopy. UMOD localization at the mitotic spindle poles and colocalization with other ciliary proteins such as nephrocystin-1 and kinesin family member 3A is demonstrated. Our data add UMOD to the group of proteins expressed in primary cilia, where mutations of the gene lead to cystic kidney disease.

Mapping of a new locus for congenital anomalies of the kidney and urinary tract on chromosome 8q24

Congenital anomalies of the kidney and urinary tract (CAKUT) account for the majority of end-stage renal disease in children (50%). Previous studies have mapped autosomal dominant loci for CAKUT. We here report a genome-wide search for linkage in a large pedigree of Somalian descent containing eight affected individuals with a non-syndromic form of CAKUT.

The ocular motor features of adult-onset alexander disease: a case and review of the literature

A 51-year-old Chinese man presented with gaze-evoked nystagmus, impaired smooth pursuit and vestibular ocular reflex cancellation, and saccadic dysmetria, along with a family history suggestive of late-onset autosomal dominant parkinsonism. MRI revealed abnormalities of the medulla and cervical spinal cord typical of adult-onset Alexander disease, and genetic testing showed homozygosity for the p.D295N polymorphic allele in the gene encoding the glial fibrillary acidic protein. A review of the literature shows that ocular signs are frequent in adult-onset Alexander disease, most commonly gaze-evoked nystagmus, pendular nystagmus, and/or oculopalatal myoclonus, and less commonly ptosis, miosis, and saccadic dysmetria. These signs are consistent with the propensity of adult-onset Alexander disease to cause medullary abnormalities on neuroimaging.

Induction of p38, tumour necrosis factor-α and RANTES by mechanical stretching of keratinocytes expressing mutant keratin 10R156H

Epidermolytic hyperkeratosis (bullous congenital ichthyosiform erythroderma), characterized by ichthyotic, rippled hyperkeratosis, erythroderma and skin blistering, is a rare autosomal dominant disease caused by mutations in keratin 1 or keratin 10 (K10) genes. A severe phenotype is caused by a missense mutation in a highly conserved arginine residue at position 156 (R156) in K10.

A novel GH-1 gene mutation (GH-P59L) causes partial GH deficiency type II combined with bioinactive GH syndrome

Despite the differences in the main characteristics between the autosomal dominant form of GH deficiency (IGHD II) and the bioinactive GH syndrome, a common feature of both is their impact on linear growth leading to short stature in all affected patients.

Deep brain stimulation of the globus pallidus internal improves symptoms of chorea-acanthocytosis

Chorea-acanthocytosis is a rare autosomal recessive disorder. To date, treatment is only symptomatic and supportive. Results from the few reports of chorea-acanthocytosis patients treated with deep brain stimulation (DBS) have been inconsistent. We present case reports for two patients with chorea-acanthocytosis who received DBS treatment and compare the outcomes with results from the literature. Both patients showed the typical clinical features of chorea-acanthocytosis with motor symptoms resistant to medical treatment. Chorea was significantly improved following low-frequency DBS treatment in both patients. However, dystonia was only mildly improved. Four chorea-acanthocytosis patients treated with DBS treatment have been reported in the literature. One patient had improvement with low-frequency DBS stimulation, while another two had improvement with higher-frequency DBS. One patient, however, did not improve with either low-frequency or high-frequency DBS. Bilateral DBS to the GPi can improve chorea and dystonia in some patients with intractable chorea-acanthocytosis. However, selection criteria for the most promising candidates must be defined, and the long-term benefits evaluated in clinical studies.

Isolated growth hormone deficiency type 2: from gene to therapy

Isolated growth hormone deficiency type-2 (IGHD-2), the autosomal-dominant form of GH deficiency, is mainly caused by specific splicing mutations in the human growth hormone (hGH) gene (GH-1). These mutations, occurring in and around exon 3, cause complete exon 3 skipping and produce a dominant-negative 17.5 kD GH isoform that reduces the accumulation and secretion of wild type-GH (wt-GH). At present, patients suffering from IGHD-2 are treated with daily injections of recombinant human GH (rhGH) in order to reach normal height. However, this type of replacement therapy, although effective in terms of growth, does not prevent toxic effects of the 17.5-kD mutant on the pituitary gland, which can eventually lead to other hormonal deficiencies. Considering a well-known correlation between the clinical severity observed in IGHD-2 patients and the increased expression of the 17.5-kD isoform, therapies that specifically target this isoform may be useful in patients with GH-1 splicing defects. This chapter focuses on molecular strategies that could represent future directions for IGHD-2 treatment.

P450 oxidoreductase deficiency: a new form of congenital adrenal hyperplasia

PURPOSE OF REVIEW: P450 oxidoreductase deficiency--a newly described form of congenital adrenal hyperplasia--typically presents a steroid profile suggesting combined deficiencies of steroid 21-hydroxylase and 17alpha-hydroxylase/17,20-lyase activities. These and other enzymes require electron donation from P450 oxidoreductase. The clinical spectrum of P450 oxidoreductase deficiency ranges from severely affected children with ambiguous genitalia, adrenal insufficiency and the Antley-Bixler skeletal malformation syndrome to mildly affected individuals with polycystic ovary syndrome. We review current knowledge of P450 oxidoreductase deficiency and its broader implications. RECENT FINDINGS: Since the first report in 2004, at least 21 P450 oxidoreductase mutations have been reported in over 40 patients. The often subtle manifestations of P450 oxidoreductase deficiency suggest it may be relatively common. P450 oxidoreductase deficiency, with or without Antley-Bixler syndrome, is autosomal recessive, whereas Antley-Bixler syndrome without disordered steroidogenesis is caused by autosomal dominant fibroblast growth factor receptor 2 mutations. In-vitro assays of P450 oxidoreductase missense mutations based on P450 oxidoreductase-supported P450c17 activities provide excellent genotype/phenotype correlations. The causal connection between P450 oxidoreductase deficiency and disordered bone formation remains unclear. SUMMARY: P450 oxidoreductase mutations cause combined partial deficiency of 17alpha-hydroxylase and 21-hydroxylase. Individuals with an Antley-Bixler syndrome-like phenotype presenting with sexual ambiguity or other abnormalities in steroidogenesis should be analyzed for P450 oxidoreductase deficiency.

Different amino acid substitutions at the same position in rhodopsin lead to distinct phenotypes

PURPOSE: Identification of a novel rhodopsin mutation in a family with retinitis pigmentosa and comparison of the clinical phenotype to a known mutation at the same amino acid position. METHODS: Screening for mutations in rhodopsin was performed in 78 patients with retinitis pigmentosa. All exons and flanking intronic regions were amplified by PCR, sequenced, and compared to the reference sequence derived from the National Center for Biotechnology Information (NCBI, Bethesda, MD) database. Patients were characterized clinically according to the results of best corrected visual acuity testing (BCVA), slit lamp examination (SLE), funduscopy, Goldmann perimetry (GP), dark adaptometry (DA), and electroretinography (ERG). Structural analyses of the rhodopsin protein were performed with the Swiss-Pdb Viewer program available on-line (http://www.expasy.org.spdvbv/ provided in the public domain by Swiss Institute of Bioinformatics, Geneva, Switzerland). RESULTS: A novel rhodopsin mutation (Gly90Val) was identified in a Swiss family of three generations. The pedigree indicated autosomal dominant inheritance. No additional mutation was found in this family in other autosomal dominant genes. The BCVA of affected family members ranged from 20/25 to 20/20. Fundus examination showed fine pigment mottling in patients of the third generation and well-defined bone spicules in patients of the second generation. GP showed concentric constriction. DA demonstrated monophasic cone adaptation only. ERG revealed severely reduced rod and cone signals. The clinical picture is compatible with retinitis pigmentosa. A previously reported amino acid substitution at the same position in rhodopsin leads to a phenotype resembling night blindness in mutation carriers, whereas patients reported in the current study showed the classic retinitis pigmentosa phenotype. The effect of different amino acid substitutions on the three-dimensional structure of rhodopsin was analyzed by homology modeling. Distinct distortions of position 90 (shifts in amino acids 112 and 113) and additional hydrogen bonds were found. CONCLUSIONS: Different amino acid substitutions at position 90 of rhodopsin can lead to night blindness or retinitis pigmentosa. The data suggest that the property of the substituted amino acid distinguishes between the phenotypes.