Your search keyword '"Alter, Svenja"' showing total 27 results

1. Autosomal Dominant Lamellar Ichthyosis Due to a Missense Variant in the Gene NKPD1

Author

Komlosi, Katalin, Glocker, Cristina, Hsu-Rehder, Hao-Hsiang, Alter, Svenja, Kopp, Julia, Hotz, Alrun, Zimmer, Andreas David, Hausser, Ingrid, Sandhoff, Roger, Oji, Vinzenz, and Fischer, Judith

Published

2024

2. Obsessive–compulsive symptoms in ACTG1-associated Baraitser-Winter cerebrofrontofacial syndrome

Author

Göbel, Theresa, Berninger, Lea, Schlump, Andrea, Feige, Bernd, Runge, Kimon, Nickel, Kathrin, Schiele, Miriam A., van Elst, Ludger Tebartz, Hotz, Alrun, Alter, Svenja, Domschke, Katharina, Tzschach, Andreas, and Endres, Dominique

Published

2022

3. Persistierende hyperkeratotische Plaques: Persistent hyperkeratotic plaques.

Author

Schroeder, Julie Claude, Alter, Svenja, Fischer, Judith, and Fölster‐Holst, Regina

Published

2024

4. Persistent hyperkeratotic plaques.

Author

Schroeder, Julie Claude, Alter, Svenja, Fischer, Judith, and Fölster‐Holst, Regina

Published

2024

5. Erythrokeratodermia Variabilis-like Phenotype in Patients Carrying ABCA12 Mutations.

Author

Hotz, Alrun, Fölster-Holst, Regina, Oji, Vinzenz, Bourrat, Emmanuelle, Frank, Jorge, Marrakchi, Slaheddine, Ennouri, Mariem, Wankner, Lotta, Komlosi, Katalin, Alter, Svenja, and Fischer, Judith

Subjects

CONNEXIN 43, CONNEXINS, ICHTHYOSIS, DIFFERENTIAL diagnosis, GENETIC mutation

Abstract

Erythrokeratodermia variabilis (EKV) is a rare genodermatosis characterized by well-demarcated erythematous patches and hyperkeratotic plaques. EKV is most often transmitted in an autosomal dominant manner. Until recently, only mutations in connexins such as GJB3 (connexin 31), GJB4 (connexin 30.3), and occasionally GJA1 (connexin 43) were known to cause EKV. In recent years, mutations in other genes have been described as rare causes of EKV, including the genes KDSR, KRT83, and TRPM4. Features of the EKV phenotype can also appear with other genodermatoses: for example, in Netherton syndrome, which hampers correct diagnosis. However, in autosomal recessive congenital ichthyosis (ARCI), an EKV phenotype has rarely been described. Here, we report on seven patients who clinically show a clear EKV phenotype, but in whom molecular genetic analysis revealed biallelic mutations in ABCA12, which is why the patients are classified in the ARCI group. Our study indicates that ARCI should be considered as a differential diagnosis in EKV. [ABSTRACT FROM AUTHOR]

Published

2024

6. SUPPRESSOR OF FRIGIDA (SUF4) Supports Gamete Fusion via Regulating Arabidopsis EC1 Gene Expression

Author

Resentini, Francesca, Cyprys, Philipp, Steffen, Joshua G., Alter, Svenja, Morandini, Piero, Mizzotti, Chiara, Lloyd, Alan, Drews, Gary N., Dresselhaus, Thomas, Colombo, Lucia, Sprunck, Stefanie, and Masiero, Simona

Published

2017

7. Mutational Spectrum of the ABCA12 Gene and Genotype–Phenotype Correlation in a Cohort of 64 Patients with Autosomal Recessive Congenital Ichthyosis.

Author

Hotz, Alrun, Kopp, Julia, Bourrat, Emmanuelle, Oji, Vinzenz, Süßmuth, Kira, Komlosi, Katalin, Bouadjar, Bakar, Tantcheva-Poór, Iliana, Hellström Pigg, Maritta, Betz, Regina C., Giehl, Kathrin, Schedel, Fiona, Weibel, Lisa, Schulz, Solveig, Stölzl, Dora V., Tadini, Gianluca, Demiral, Emine, Berggard, Karin, Zimmer, Andreas D., and Alter, Svenja

Subjects

RECESSIVE genes, ICHTHYOSIS, CONGENITAL disorders, MISSENSE mutation, GENETIC mutation, AGENESIS of corpus callosum, GENES

Abstract

Autosomal recessive congenital ichthyosis (ARCI) is a non-syndromic congenital disorder of cornification characterized by abnormal scaling of the skin. The three major phenotypes are lamellar ichthyosis, congenital ichthyosiform erythroderma, and harlequin ichthyosis. ARCI is caused by biallelic mutations in ABCA12, ALOX12B, ALOXE3, CERS3, CYP4F22, NIPAL4, PNPLA1, SDR9C7, SULT2B1, and TGM1. The most severe form of ARCI, harlequin ichthyosis, is caused by mutations in ABCA12. Mutations in this gene can also lead to congenital ichthyosiform erythroderma or lamellar ichthyosis. We present a large cohort of 64 patients affected with ARCI carrying biallelic mutations in ABCA12. Our study comprises 34 novel mutations in ABCA12, expanding the mutational spectrum of ABCA12-associated ARCI up to 217 mutations. Within these we found the possible mutational hotspots c.4541G>A, p.(Arg1514His) and c.4139A>G, p.(Asn1380Ser). A correlation of the phenotype with the effect of the genetic mutation on protein function is demonstrated. Loss-of-function mutations on both alleles generally result in harlequin ichthyosis, whereas biallelic missense mutations mainly lead to CIE or LI. [ABSTRACT FROM AUTHOR]

Published

2023

8. Lipoid proteinosis: Novel ECM1 pathogenic variants and intrafamilial variability in four unrelated Arab families.

Author

Li, Mingfeng, Fischer, Judith, Safwat, Sylvia, Shoman, Walaa, Chazli, Yasmine El, Alter, Svenja, Has, Cristina, and Abdalla, Ebtesam

Subjects

PHENOTYPIC plasticity, VOICE disorders, HOARSENESS, EXTRACELLULAR matrix proteins, FAMILIES, EXTRACELLULAR matrix, SYMPTOMS

Abstract

Background/objectives: Lipoid proteinosis (LP) is a rare autosomal recessive multisystem disorder that is caused by loss‐of‐function pathogenic variants in the extracellular matrix protein‐1 (ECM1) gene. The typical clinical manifestations of LP include hoarseness of voice, beaded papules on the eyelids, infiltration and scarring of the skin and mucosa, as well as neuropsychological abnormalities. Currently, more than 70 pathogenic variants have been reported, including nonsense, missense, splice site, deletion and insertion pathogenic variants, and more than half of them occurred in exons 6 and 7. Methods: Clinical evaluation and Sanger sequencing were performed on eight patients from four unrelated Arab families. Results: We identified two novel ECM1 variants, one nonsense pathogenic variant in exon 6 (c.579G>A, p.Trp193*) and a deletion of three nucleotides (c.1390_1392del, p.Glu464del) in exon 9, and two previously reported frameshift variants; c.692_693delAG, in exon 6 and c.11dupC in exon 1. Conclusions: Although all patients had characteristic manifestations of lipoid proteinosis, we observed intrafamilial phenotypic variability. Our data expand the pathogenic variant spectrum of ECM1 and also supports the fact that exon 6 is one of the most common hot spots of pathological variants in ECM1. [ABSTRACT FROM AUTHOR]

Published

2023

9. Pathogenic variants in the SPTLC1 gene cause hyperkeratosis lenticularis perstans.

Author

Jägle, Sabine, Hsu, Hao-Hsiang, Juratli, Hazem A, Zimmer, Andreas D, Prieschl, Amelie, Alter, Svenja, Wiedenhofer, Bernhard, Metze, Dieter, Emmert, Steffen, and Fischer, Judith

Subjects

GENETIC variation, SKIN biopsy, SKIN proteins, GENE frequency, NUCLEOTIDE sequencing, CIRCULATING tumor DNA

Abstract

Background Hyperkeratosis lenticularis perstans (HLP), also known as Flegel disease, is a rare skin disease presenting with asymptomatic small hyperkeratotic papules. The lesions often appear on the dorsal feet and lower legs, and typically develop after the fourth decade of life. A genetic basis for HLP is suspected; however, so far no gene defect linked to the development of HLP has been identified. Objectives We aimed to identify the genetic cause of HLP. Methods For mutational analysis we studied a cohort of five patients with HLP using next-generation sequencing (NGS). We used DNA -extracted from fresh skin biopsies alongside ethylenediamine tetraacetic acid (EDTA) blood samples from two patients, and formalin-fixed -paraffin-embedded skin biopsy material from three patients. In addition, immunofluorescence staining of HLP lesions from four patients was investigated. Results In all samples from the five patients with HLP we identified by NGS rare variants in the SPTLC1 gene. In four patients we detected small deletions/frameshift variants and in one patient a splicing variant, predicted to disturb the splicing process. In blood samples the detected variants were heterozygous with an allele frequency of 49% and 50%, respectively. In skin biopsies the allele frequency was within the range of 46–62%. Immunofluorescence staining revealed reduced SPTLC1 protein levels in skin of patients. Conclusions Our findings suggest that pathogenic variants in the SPTLC1 gene are the underlying genetic cause of HLP. Of note, the identified variants were either frameshift- or splicing variants probably leading to nonsense-mediated mRNA decay and thus reduced SPTLC1 protein levels. We conclude that diminished SPTLC1, the key enzyme in sphingolipid biosynthesis, leads to the development of HLP, which highlights the sphingolipid pathway as a new therapeutic target. [ABSTRACT FROM AUTHOR]

Published

2023

10. Fallbericht: Diagnostische und therapeutische Herausforderungen bei schwerer mechanobullöser Epidermolysis bullosa acquisita.

Author

Schauer, Franziska, Nyström, Alexander, Kunz, Manfred, Hübner, Stefanie, Scholl, Sarah, Athanasiou, Ioannis, Alter, Svenja, Fischer, Judith, Has, Christina, and Kiritsi, Dimitra

Abstract

Kollagen VII ist der Hauptbestandteil der Verankerungsfibrillen, wichtigen adhäsiven Strukturen, die die Epidermis an der extrazellulären Matrix der Dermis befestigen. Zwei Erkrankungen werden durch eine Fehlfunktion von Kollagen VII verursacht, die beide durch eine Fragilität von Haut und Schleimhaut gekennzeichnet sind: Epidermolysis bullosa acquisita (EBA) und dystrophische Epidermolysis bullosa (DEB). EBA und DEB weisen hohe klinische Ähnlichkeiten, aber signifikante Unterschiede in der Pathogenese und im Alter der Patienten bei Einsetzen der Erkrankung auf. Unsere Patienten hatten eine schwere und rekurrierende mechanobullöse EBA mit charakteristischen diagnostischen DIF-, IIF- und ELISA-Resultaten. Jedoch wurden bei beiden Frauen auch rezessive COL7A1-Varianten in einem monoallelischen Zustand gefunden. Kollagen VII aus EBA-Keratinozyten unserer Patientinnen war signifikant anfälliger für proteolytischen Abbau als Kollagen VII aus Kontrollkeratinozyten, was darauf hindeutet, dass die heterozygoten pathogenen Varianten ausreichten, um das Molekül in vitro zu destabilisieren. Selbst wenn die Menge und Funktionalität von mutierten und normalen Kollagenpolypeptiden vom Typ VII ausreicht, um die Dermis-Epidermis-Adhäsion bei gesunden Personen zu gewährleisten, sind die funktionell beeinträchtigten Proteine wahrscheinlich anfälliger für die Entwicklung von Autoantikörpern gegen sie. Unsere Arbeit legt nahe, dass ein Test auf genetische COL7A1-Varianten bei solchen Patienten mit EBA in Erwägung gezogen werden sollte, die entweder eine Krankengeschichte haben, die auf eine zugrunde liegende dystrophe Epidermolysis bullosa hinweist, oder die eine therapeutische Herausforderung darstellen. [ABSTRACT FROM AUTHOR]

Published

2022

11. Case Report: Diagnostic and Therapeutic Challenges in Severe Mechanobullous Epidermolysis Bullosa Acquisita.

Author

Schauer, Franziska, Nyström, Alexander, Kunz, Manfred, Hübner, Stefanie, Scholl, Sarah, Athanasiou, Ioannis, Alter, Svenja, Fischer, Judith, Has, Cristina, and Kiritsi, Dimitra

Subjects

EPIDERMOLYSIS bullosa, PROTEOLYSIS, GENETIC variation, EXTRACELLULAR matrix, AGE of onset, COLLAGEN

Abstract

Collagen VII is the main constituent of the anchoring fibrils, important adhesive structures that attach the epidermis to the dermal extracellular matrix. Two disorders are caused by dysfunction of collagen VII, both characterized by skin and mucosa fragility, epidermolysis bullosa acquisita (EBA) and dystrophic epidermolysis bullosa (DEB). EBA and DEB share high clinical similarities with significant difference in patients' age of onset and pathogenesis. Our patients presented with severe and recalcitrant mechanobullous EBA with characteristic DIF, IIF and ELISA diagnostics. But in both women recessive COL7A1 variants were also found, in a monoallelic state. Collagen VII from EBA keratinocytes of our cases was significantly more vulnerable to proteolytic degradation than control keratinocytes, hinting that the heterozygous pathogenic variants were sufficient to destabilize the molecule in vitro. Thus, even if the amount and functionality of mutant and normal type VII collagen polypeptides is sufficient to assure dermal-epidermal adhesion in healthy individuals, the functionally-impaired proteins are probably more prone to development of autoantibodies against them. Our work suggests that testing for COL7A1 genetic variants should be considered in patients with EBA, which either have a patient history hinting towards underlying dystrophic epidermolysis bullosa or pose therapeutic challenges. [ABSTRACT FROM AUTHOR]

Published

2022

12. First Description of Inheritance of a Postzygotic OPA1 Mosaic Variant.

Author

Alter, Svenja, Farassat, Navid, Küchlin, Sebastian, Lagrèze, Wolf A., and Fischer, Judith

Subjects

*GENETIC variation, *ATROPHY, *GUANOSINE triphosphatase

Abstract

Optic atrophy 1 (MIM #165500) is caused by pathogenic variants in the gene OPA1 (OPA1 MITOCHONDRIAL DYNAMIN-LIKE GTPase, MIM *605290) and is inherited in an autosomal dominant manner. We describe a 6-year-old male patient with severe early onset manifestation of optic atrophy, whose parents are subjectively asymptomatic. OPA1-sequence analysis revealed the heterozygous missense variant NM_015560.3:c.806C>T, p.(Ser269Phe) in the patient. Segregation analysis of the parents showed that the mother carried a low-grade postzygotic mosaic of this variant, which apparently also involves germline cells. In line with this, ophthalmological investigation of the mother showed subclinical manifestation of optic atrophy 1. This is the first report of an OPA1 postzygotic mosaic that was inherited to offspring. [ABSTRACT FROM AUTHOR]

Published

2022

13. Telangiectasia-ectodermal dysplasia-brachydactyly-cardiac anomaly syndrome is caused by de novo mutations in protein kinase D1.

Author

Alter, Svenja, Zimmer, Andreas David, Park, Misun, Jianli Gong, Caliebe, Almuth, Fölster-Holst, Regina, Torrelo, Antonio, Colmenero, Isabel, Steinberg, Susan F., and Fischer, Judith

Abstract

Background We describe two unrelated patients who display similar clinical features including telangiectasia, ectodermal dysplasia, brachydactyly and congenital heart disease. Methods We performed trio whole exome sequencing and functional analysis using in vitro kinase assays with recombinant proteins. Results We identified two different de novo mutations in protein kinase D1 (PRKD1, NM_002742.2): c.1774G>C, p.(Gly592Arg) and c.1808G>A, p.(Arg603His), one in each patient. PRKD1 (PKD1, HGNC:9407) encodes a kinase that is a member of the protein kinase D (PKD) family of serine/threonine protein kinases involved in diverse cellular processes such as cell differentiation and proliferation and cell migration as well as vesicle transport and angiogenesis. Functional analysis using in vitro kinase assays with recombinant proteins showed that the mutation c.1808G>A, p.(Arg603His) represents a gain-of-function mutation encoding an enzyme with a constitutive, lipid-independent catalytic activity. The mutation c.1774G>C, p.(Gly592Arg) in contrast shows a defect in substrate phosphorylation representing a loss-of-function mutation. Conclusion The present cases represent a syndrome, which associates symptoms from several different organ systems: skin, teeth, bones and heart, caused by heterozygous de novo mutations in PRKD1 and expands the clinical spectrum of PRKD1 mutations, which have hitherto been linked to syndromic congenital heart disease and limb abnormalities. [ABSTRACT FROM AUTHOR]

Published

2021

14. Neonatal presentation of COG6‐CDG with prominent skin phenotype.

Author

Komlosi, Katalin, Gläser, Selina, Kopp, Julia, Hotz, Alrun, Alter, Svenja, Zimmer, Andreas D., Beger, Carmela, Heinzel, Stefan, Schmidt, Christoph, and Fischer, Judith

Published

2020

15. A novel LMNA nonsense mutation causes two distinct phenotypes of cardiomyopathy with high risk of sudden cardiac death in a large five-generation family.

Author

Glöcklhofer, Christina R, Steinfurt, Johannes, Franke, Gerlind, Hoppmann, Anselm, Glantschnig, Theresa, Perez-Feliz, Stefanie, Alter, Svenja, Fischer, Judith, Brunner, Michael, Rainer, Peter P, Köttgen, Anna, Bode, Christoph, and Odening, Katja E

Abstract

Aims: Characterization of the cardiac phenotype associated with the novel LMNA nonsense mutation c.544C>T, p.Q182*, which we have identified in a large five-generation family.Methods and results: A family tree was constructed. Clinical data [arrhythmia, syncope, sudden cardiac death (SCD), New York Heart Association (NYHA) class] were collected from living and deceased family members. DNA of 23 living family members was analysed for mutations in LMNA. Additionally, dilated cardiomyopathy multi-gene-panel testing and whole exome sequencing were performed in some family members to identify potential phenotype-modifiers. In this five-generation family (n = 65), 17 SCDs occurred at 49.3 ± 10.0 years. Furthermore, we identified eight additional mutation-carriers, seven symptomatic (44 ± 13 years), and one asymptomatic (44 years). First signs of disease [sinus bradycardia with atrioventricular (AV)-block I°] occurred at 36.5 ± 8.1 years. Paroxysmal atrial fibrillation (AF) (onset at 41.8 ± 5.7 years) rapidly progressed to permanent AF (46.2 ± 9.8 years). Subsequently, AV-conduction worsened, syncope, pacemaker-dependence, and non-sustained ventricular tachycardia (43.3 ± 8.2 years) followed. Ventricular arrhythmia caused SCD in patients without implantable cardioverter-defibrillator (ICD). Patients protected by ICD developed rapidly progressive heart failure (45.2 ± 10.6 years). A different phenotype was seen in a sub-family in three patients with early onset of rapidly decompensating heart failure and only minor prior arrhythmia-related symptoms. One patient received high-urgency heart transplantation (HTX) at 32 years, while two died prior to HTX. One of them developed lethal peripartum-associated heart failure. Possible disease-modifiers were identified in this 'heart failure sub-family'.Conclusion: The novel LMNA nonsense mutation c.544C>T causes a severe arrhythmogenic phenotype manifesting with high incidence of SCD in most patients; and in one sub-family, a distinct phenotype with fast progressing heart failure, indicating the need for early consideration of ICD-implantation and listing for heart-transplantation. [ABSTRACT FROM AUTHOR]

Published

2018

16. Novel VPS33B mutation in a patient with autosomal recessive keratoderma‐ichthyosis‐deafness syndrome.

Author

Alter, Svenja, Hotz, Alrun, Jahn, Arne, Di Donato, Nataliya, Schröck, Evelin, Smitka, Martin, von der Hagen, Maja, Schallner, Jens, Menschikowski, Mario, Gillitzer, Claus, Laass, Martin W., Fischer, Judith, and Tzschach, Andreas

Abstract

Autosomal recessive keratoderma‐ichthyosis‐deafness (ARKID) syndrome is a rare multisystem disorder caused by biallelic mutations in VPS33B; only three patients have been reported to date. ARKID syndrome is allelic to arthrogryposis‐renal dysfunction‐cholestasis (ARC) syndrome (MIM #208085), a severe disorder with early lethality whose phenotypic characteristics also include ichthyosis, hearing loss, severe failure to thrive, platelet dysfunction and osteopenia. We report on an 11‐year‐old male patient with ARKID syndrome and compound heterozygous VPS33B mutations, one of which [c.1440delG; p.(Arg481Glyfs*11)] was novel. Clinical features of this patient included ichthyosis, palmoplantar keratosis, hearing loss, intellectual disability, unilateral hip dislocation, microcephaly and short stature. He also had copper hepatopathy and exocrine pancreatic insufficiency, features that have so far been associated with neither ARKID nor ARC syndrome. The patient broadens the clinical and molecular spectrum of ARKID syndrome and contributes to genotype–phenotype associations of this rare disorder. [ABSTRACT FROM AUTHOR]

Published

2018

17. Mutation update for CYP4F22 variants associated with autosomal recessive congenital ichthyosis.

Author

Hotz, Alrun, Bourrat, Emmanuelle, Küsel, Julia, Oji, Vinzenz, Alter, Svenja, Hake, Lisanne, Korbi, Mouna, Ott, Hagen, Hausser, Ingrid, Zimmer, Andreas D., and Fischer, Judith

Abstract

Abstract: Autosomal recessive congenital ichthyosis (ARCI) is a heterogeneous group of rare disorders of keratinization characterized by generalized abnormal scaling of the skin. Ten genes are currently known to be associated with ARCI: TGM1, ALOXE3, ALOX12B, NIPAL4 (ICHTHYIN), ABCA12, CYP4F22, PNPLA1, CERS3, SDR9C7, and SULT2B1. Over a period of 22 years, we have studied a large patient cohort from 770 families with a clinical diagnosis of ARCI. Since the first report that mutations in the gene CYP4F22 are causative for ARCI in 2006, we have identified 54 families with pathogenic mutations in CYP4F22 including 23 previously unreported mutations. In this report, we provide an up‐to‐date overview of all published and novel CYP4F22 mutations and point out possible mutation hot spots. We discuss the molecular and clinical findings, the genotype–phenotype correlations and consequences on genetic testing. [ABSTRACT FROM AUTHOR]

Published

2018

18. Adding up the desmosomal genes causing syndromes with hair and skin involvement: identification of TUFT1 by state-of-the-art whole-genome sequencing.

Author

Fischer, Judith and Alter, Svenja

Subjects

*NUCLEOTIDE sequencing, *HAIR growth, *GENES, *HAIR, *WHOLE genome sequencing, *GENETIC variation

Abstract

It may be surprising that this large number of diseases is contrasted with only about 4700 genes in which a pathogenic variant is considered to be causative of a specific phenotype. Https://doi.org/10.1093/bjd/ljac073 Genetics approaches using whole-genome sequencing are currently the most promising method for identifying new causative genes for monogenic human disorders.[1] Additional resources like the 100 000 Genomes Pilot on Rare-Disease Diagnosis in Health Care aid in identifying and confirming the role of new genes.[2] In this issue of the I BJD i , Jackson I et al. i describe a new genodermatosis characterized by woolly hair and skin fragility due to biallelic pathogenic loss-of-function variants in the gene I TUFT1 i , which encodes the protein tuftelin-1. [Extracted from the article]

Published

2023

19. SUPPRESSOR OF FRIGIDA (SUF4) Supports Gamete Fusion via Regulating Arabidopsis EC1 Gene Expression.

Author

Resentini, Francesca, Cyprys, Philipp, Steffen, Joshua G., Alter, Svenja, Morandini, Piero, Mizzotti, Chiara, Lloyd, Alan, Drews, Gary N., Dresselhaus, Thomas, Colombo, Lucia, Sprunck, Stefanie, and Masiero, Simona

Published

2017

20. DroughtDB: an expert-curated compilation of plant drought stress genes and their homologs in nine species.

Author

Alter, Svenja, Bader, Kai C., Spannagl, Manuel, Yu Wang, Bauer, Eva, Schön, Chris-Carolin, and Mayer, Klaus F. X.

Subjects

*EFFECT of drought on plants, *ABIOTIC stress, *PLANT genes, *ARABIDOPSIS thaliana genetics, *DROUGHT-tolerant plants, *CULTIVARS, RICE genetics

Abstract

Plants are sessile and therefore exposed to a number of biotic and abiotic stresses. Drought is the major abiotic stress restricting plant growth worldwide. A number of genes involved in drought stress response have already been characterized, mainly in the model species Arabidopsis thaliana and Oryza sativa. However, with the aim to produce drought tolerant crop varieties, it is of importance to identify the respective orthologs for each species. We have developed DroughtDB, a manually curated compilation of molecularly characterized genes that are involved in drought stress response. DroughtDB includes information about the originally identified gene, its physiological and/or molecular function and mutant phenotypes and provides detailed information about computed orthologous genes in nine model and crop plant species including maize and barley. All identified orthologs are interlinked with the respective reference entry in MIPS/PGSB PlantsDB, which allows retrieval of additional information like genome context and sequence information. Thus, DroughtDB is a valuable resource and information tool for researchers working on drought stress and will facilitate the identification, analysis and characterization of genes involved in drought stress tolerance in agriculturally important crop plants. Database URL: http://pgsb.helmholtz-muenchen.de/droughtdb/ [ABSTRACT FROM AUTHOR]

Published

2015

21. The beginning of a seed: regulatory mechanisms of double fertilization.

Author

Bleckmann, Andrea, Dresselhaus, Thomas, and Alter, Svenja

Subjects

POLLEN tube, OVULES, GAMETES, CELL fusion, FERTILIZATION (Biology)

Abstract

The launch of seed development in flowering plants (angiosperms) is initiated by the process of double fertilization: two male gametes (sperm cells) fuse with two female gametes (egg and central cell) to form the precursor cells of the two major seed components, the embryo and endosperm, respectively. The immobile sperm cells are delivered by the pollen tube toward the ovule harboring the female gametophyte by species-specific pollen tube guidance and attraction mechanisms. After pollen tube burst inside the female gametophyte, the two sperm cells fuse with the egg and central cell initiating seed development. The fertilized central cell forms the endosperm while the fertilized egg cell, the zygote, will form the actual embryo and suspensor. The latter structure connects the embryo with the sporophytic maternal tissues of the developing seed. The underlying mechanisms of double fertilization are tightly regulated to ensure delivery of functional sperm cells and the formation of both, a functional zygote and endosperm. In this review we will discuss the current state of knowledge about the processes of directed pollen tube growth and its communication with the synergid cells resulting in pollen tube burst, the interaction of the four gametes leading to cell fusion and finally discuss mechanisms how flowering plants prevent multiple sperm cell entry (polyspermy) to maximize their reproductive success. [ABSTRACT FROM AUTHOR]

Published

2014

22. The Importance of Extended Analysis Using Current Molecular Genetic Methods Based on the Example of a Cohort of 228 Patients with Hereditary Breast and Ovarian Cancer Syndrome.

Author

Resch, Luise D., Hotz, Alrun, Zimmer, Andreas D., Komlosi, Katalin, Singh, Nina, Tzschach, Andreas, Windfuhr-Blum, Marisa, Juhasz-Boess, Ingolf, Erbes, Thalia, Fischer, Judith, and Alter, Svenja

Subjects

OVARIAN cancer, BREAST cancer, GENETIC variation, BRCA genes, MOLECULAR diagnosis

Abstract

In about 20–30% of all women with breast cancer, an increased number of cases of breast cancer can be observed in their family history. However, currently, only 5–10% of all breast cancer cases can be attributed to a pathogenic gene alteration. Molecular genetic diagnostics underwent enormous development within the last 10 years. Next-generation sequencing approaches allow increasingly extensive analyses resulting in the identification of additional candidate genes. In the present work, the germline molecular diagnostic analysis of a cohort of 228 patients with suspected hereditary breast and ovarian cancer syndrome (HBOC) was evaluated. The 27 pathogenic gene variants initially detected are listed, and their distribution in the high-risk BRCA1 and BRCA2 genes is presented in this study. In ten high-risk patients, in whom, to date, no pathogenic variant could be detected, an extended genetic analysis of previously not considered risk genes was performed. Three variants of uncertain significance and one pathogenic variant could be described. This proves the importance of extended analysis using current molecular genetic methods. [ABSTRACT FROM AUTHOR]

Published

2021

23. Epidermolytic ichthyosis: Clinical spectrum and burden of disease in a large German cohort.

Author

Frommherz, Leonie, Giehl, Kathrin, Hofmann, Josephine, Huebner, Stefanie, Kiekbusch, Kirstin, Sabkova, Teodora, Süßmuth, Kira, Alter, Svenja, Tantcheva‐Poór, Iliana, Ott, Hagen, Fischer, Judith, and Has, Cristina

Abstract

Background Objectives Methods Results Conclusions Keratinopathic ichthyoses are a group of hereditary skin disorders caused by pathogenic variants in keratin genes such as KRT1, KRT2 and KRT10, resulting in conditions such as epidermolytic ichthyosis (EI), autosomal‐recessive EI, superficial EI and epidermal nevus. Case reports highlight the diversity of clinical manifestations, but only limited information exists regarding the quality of life and burden of disease.The objective of this study was to assess the clinical spectrum, genotype–phenotype correlations and burden of disease in patients with epidermolytic ichthyosis in Germany.We conducted an observational study involving 48 patients diagnosed with EI. Evaluations included the severity of skin involvement using the Investigator's Global Assessment (IGA), the modified Ichthyosis Area Severity Index (mIASI) and complications. The burden of disease was evaluated using the Dermatology Life Quality Index (DLQI) or the Children's Dermatology Life Quality Index (cDLQI).Based on clinical features, mIASI and IGA, EI can be categorized into localized, intermediate and severe forms. Patients with keratin 1 mutations tended to have severe EI, while the three forms were evenly distributed in those with keratin 10 mutations. The study highlights that around half of the patients with EI experienced itch and severe pain. Quality of life was affected, with daily life restrictions of 78% due to care and therapies. Reimbursement for moisturizing ointments by health insurance was insufficient for one‐quarter of cases.The results emphasize the need for targeted interventions and comprehensive care strategies to enhance the quality of life for affected individuals. [ABSTRACT FROM AUTHOR]

Published

2024

24. Meta-Analysis of Mutations in ALOX12B or ALOXE3 Identified in a Large Cohort of 224 Patients.

Author

Hotz A, Kopp J, Bourrat E, Oji V, Komlosi K, Giehl K, Bouadjar B, Bygum A, Tantcheva-Poor I, Hellström Pigg M, Has C, Yang Z, Irvine AD, Betz RC, Zambruno G, Tadini G, Süßmuth K, Gruber R, Schmuth M, Mazereeuw-Hautier J, Jonca N, Guez S, Brena M, Hernandez-Martin A, van den Akker P, Bolling MC, Hannula-Jouppi K, Zimmer AD, Alter S, Vahlquist A, and Fischer J

Subjects

Adult, Cohort Studies, Female, Humans, Male, Arachidonate 12-Lipoxygenase genetics, Ichthyosiform Erythroderma, Congenital genetics, Lipoxygenase genetics, Mutation

Abstract

The autosomal recessive congenital ichthyoses (ARCI) are a nonsyndromic group of cornification disorders that includes lamellar ichthyosis, congenital ichthyosiform erythroderma, and harlequin ichthyosis. To date mutations in ten genes have been identified to cause ARCI: TGM1 , ALOX12B , ALOXE3 , NIPAL4 , CYP4F22 , ABCA12 , PNPLA1 , CERS3 , SDR9C7 , and SULT2B1 . The main focus of this report is the mutational spectrum of the genes ALOX12B and ALOXE3 , which encode the epidermal lipoxygenases arachidonate 12-lipoxygenase, i.e., 12R type (12R-LOX), and the epidermis-type lipoxygenase-3 (eLOX3), respectively. Deficiency of 12R-LOX and eLOX3 disrupts the epidermal barrier function and leads to an abnormal epidermal differentiation. The type and the position of the mutations may influence the ARCI phenotype; most patients present with a mild erythrodermic ichthyosis, and only few individuals show severe erythroderma. To date, 88 pathogenic mutations in ALOX12B and 27 pathogenic mutations in ALOXE3 have been reported in the literature. Here, we presented a large cohort of 224 genetically characterized ARCI patients who carried mutations in these genes. We added 74 novel mutations in ALOX12B and 25 novel mutations in ALOXE3 . We investigated the spectrum of mutations in ALOX12B and ALOXE3 in our cohort and additionally in the published mutations, the distribution of these mutations within the gene and gene domains, and potential hotspots and recurrent mutations.

Published

2021

25. Neonatal presentation of COG6-CDG with prominent skin phenotype.

Author

Komlosi K, Gläser S, Kopp J, Hotz A, Alter S, Zimmer AD, Beger C, Heinzel S, Schmidt C, and Fischer J

Abstract

Many of the genetic childhood disorders leading to death in the perinatal period follow autosomal recessive inheritance and bear specific challenges for genetic counseling and prenatal diagnostics. Often, affected children die before a genetic diagnosis can be established, thereby precluding targeted carrier testing in parents and prenatal or preimplantation genetic diagnosis in further pregnancies. The clinical phenotype of congenital disorders of glycosylation (CDG) is very heterogeneous and ranges from relatively mild symptoms to severe multisystem dysfunction and even a fatal course. A very rare subtype, COG6-CDG, is caused by deficiency of subunit 6 of the conserved oligomeric Golgi complex and is usually characterized by growth retardation, developmental delay, microcephaly, liver and gastrointestinal disease, joint contractures and episodic fever. It has been proposed that a distinctive feature of COG6-CDG can be ectodermal signs such as hypohidrosis/hyperthermia, hyperkeratosis and tooth anomalies. In a Greek family, who had lost two children in the neonatal period, with prominent skin features initially resembling restrictive dermopathy, severe arthrogryposis, respiratory insufficiency and a rapid fatal course trio whole-exome sequencing revealed the homozygous nonsense mutation c.511C>T, p.(Arg171*) in the COG6 gene. Skin manifestations such as dry skin and hyperkeratosis have been reported in only five out of the 21 reported COG6-CDG cases so far, including two patients with the c.511C>T variant in COG6 but with milder ectodermal symptoms. Our case adds to the phenotypic spectrum of COG6-CDG with prominent ectodermal manifestations at birth and underlines the importance of considering CDG among the possible causes for congenital syndromic genodermatoses., Competing Interests: K. K., S. G., J. K., A. H., S. A., A. D. Z., C. B., S. H., C. S., and J. F. declare that they have no conflict of interest., (© 2020 The Authors. JIMD Reports published by John Wiley & Sons Ltd on behalf of SSIEM.)

Published

2020

26. Genetical, clinical, and functional analysis of a large international cohort of patients with autosomal recessive congenital ichthyosis due to mutations in NIPAL4.

Author

Ballin N, Hotz A, Bourrat E, Küsel J, Oji V, Bouadjar B, Brognoli D, Hickman G, Heinz L, Vabres P, Marrakchi S, Leclerc-Mercier S, Irvine A, Tadini G, Hamm H, Has C, Blume-Peytavi U, Mitter D, Reitenbach M, Hausser I, Zimmer AD, Alter S, and Fischer J

Subjects

Adult, Aged, Aged, 80 and over, Biopsy, Cell Line, Female, High-Throughput Nucleotide Sequencing, Humans, Male, Middle Aged, Pedigree, Receptors, Cell Surface chemistry, Sequence Analysis, DNA, Young Adult, Ichthyosis genetics, Ichthyosis pathology, Mutation, Receptors, Cell Surface genetics

Abstract

Autosomal recessive congenital ichthyosis (ARCI) belongs to a heterogeneous group of disorders of keratinization. To date, 10 genes have been identified to be causative for ARCI. NIPAL4 (Nipa-Like Domain-Containing 4) is the second most commonly mutated gene in ARCI. In this study, we present a large cohort of 101 families affected with ARCI carrying mutations in NIPAL4. We identified 16 novel mutations and increase the total number of pathogenic mutations in NIPAL4 to 34. Ultrastructural analysis of biopsies from six patients showed morphological abnormalities consistent with an ARCI EM type III. One patient with a homozygous splice site mutation, which leads to a loss of NIPAL4 mRNA, showed additional ultrastructural aberrations together with a more severe clinical phenotype. Our study gives insights into the frequency of mutations, a potential hot spot for mutations, and genotype-phenotype correlations., (© 2019 The Authors. Human Mutation Published by Wiley Periodicals, Inc.)

Published

2019

27. A novel LMNA nonsense mutation causes two distinct phenotypes of cardiomyopathy with high risk of sudden cardiac death in a large five-generation family.

Author

Glöcklhofer CR, Steinfurt J, Franke G, Hoppmann A, Glantschnig T, Perez-Feliz S, Alter S, Fischer J, Brunner M, Rainer PP, Köttgen A, Bode C, and Odening KE

Subjects

Adult, Arrhythmias, Cardiac mortality, Arrhythmias, Cardiac physiopathology, Arrhythmias, Cardiac therapy, Cardiomyopathy, Dilated mortality, Cardiomyopathy, Dilated physiopathology, Cardiomyopathy, Dilated therapy, Death, Sudden, Cardiac prevention & control, Defibrillators, Implantable, Disease Progression, Electric Countershock instrumentation, Female, Genetic Predisposition to Disease, Heart Transplantation, Heredity, Humans, Male, Middle Aged, Pedigree, Phenotype, Prognosis, Risk Factors, Severity of Illness Index, Arrhythmias, Cardiac genetics, Cardiomyopathy, Dilated genetics, Codon, Nonsense, Death, Sudden, Cardiac etiology, Lamin Type A genetics

Abstract

Aims: Characterization of the cardiac phenotype associated with the novel LMNA nonsense mutation c.544C>T, p.Q182*, which we have identified in a large five-generation family., Methods and Results: A family tree was constructed. Clinical data [arrhythmia, syncope, sudden cardiac death (SCD), New York Heart Association (NYHA) class] were collected from living and deceased family members. DNA of 23 living family members was analysed for mutations in LMNA. Additionally, dilated cardiomyopathy multi-gene-panel testing and whole exome sequencing were performed in some family members to identify potential phenotype-modifiers. In this five-generation family (n = 65), 17 SCDs occurred at 49.3 ± 10.0 years. Furthermore, we identified eight additional mutation-carriers, seven symptomatic (44 ± 13 years), and one asymptomatic (44 years). First signs of disease [sinus bradycardia with atrioventricular (AV)-block I°] occurred at 36.5 ± 8.1 years. Paroxysmal atrial fibrillation (AF) (onset at 41.8 ± 5.7 years) rapidly progressed to permanent AF (46.2 ± 9.8 years). Subsequently, AV-conduction worsened, syncope, pacemaker-dependence, and non-sustained ventricular tachycardia (43.3 ± 8.2 years) followed. Ventricular arrhythmia caused SCD in patients without implantable cardioverter-defibrillator (ICD). Patients protected by ICD developed rapidly progressive heart failure (45.2 ± 10.6 years). A different phenotype was seen in a sub-family in three patients with early onset of rapidly decompensating heart failure and only minor prior arrhythmia-related symptoms. One patient received high-urgency heart transplantation (HTX) at 32 years, while two died prior to HTX. One of them developed lethal peripartum-associated heart failure. Possible disease-modifiers were identified in this 'heart failure sub-family'., Conclusion: The novel LMNA nonsense mutation c.544C>T causes a severe arrhythmogenic phenotype manifesting with high incidence of SCD in most patients; and in one sub-family, a distinct phenotype with fast progressing heart failure, indicating the need for early consideration of ICD-implantation and listing for heart-transplantation.

Published

2018