Endothelium in spots : high-content imaging of lipid rafts clusters in db/db mice

Lipid rafts (LRs) are dynamic, sterol- and sphingolipid-enriched nanodomains involved in the regulation of cellular functions and signal transduction, that upon stimuli, via (e.g. association of raft proteins and lipids), may cluster into domains of submicron or micron scale. Up to date, however, lipid raft clusters were observed only under artificially promoted conditions and their formation in vivo has not been confirmed. Using non-destructive approach involving Raman and Atomic Force Microscopy imaging we demonstrated the presence of clustered lipid rafts in endothelium of the aorta of the db/db mice that represent a reliable murine model of type 2 diabetes. The raft clusters in the aorta of diabetic mice were shown to occupy a considerably larger (about 10-fold) area of endothelial cells surface as compared to the control. Observation of pathology-promoted LRs confirms that the cellular increase of lipid content results in clustering of LRs. Clustering of LRs leads to the formation of assemblies with diameters up to 3 micrometers and increased lipid character. This massive clustering of lipid rafts in diabetes may trigger a signaling cascade leading to vascular inflammation

Ocena niezrównoważenia genomu w przypadkach rozrostu oraz raka endometrium

Objective: The main goal of our study was to identify the earliest and specific genetic changes which could be associated with an increased risk of neoplastic transformation in a group of patients with endometrial hyperplasia. Another goal was to characterize genetic changes associated with advanced forms of cancer. Material and methods: The study involved forty-four (44) female patients, including five (5) patients with no histopathologically confirmed hyperplastic features, twenty-six (26) patients with histopathologically confirmed endometrial hyperplasia, and thirteen (13) patients with diagnosed carcinoma of the endometrium. The study was conducted using a custom-made 4x180K microarray of BlueGnome. Results: Copy number variations (CNV) were found in the cases without endometrial hyperplasia. Such changes occur with varying frequency in the genome of healthy female population. Significant genome imbalance was identified in the twenty-six (26) (100%) patients with diagnosed hyperplasia and in eleven (11) subjects (84.6%) with diagnosed endometrial cancer. Other, not yet reported, changes localized in characteristic regions of the genome were also found.Cel pracy: Celem podjętych badań było zidentyfikowanie w grupie pacjentek z rozrostem endometrium najwcześniejszych i specyficznych zmian genetycznych, które można identyfikować z podwyższonym ryzykiem transformacji nowotworowej, a także charakterystyka zmian genetycznych związanych z rozwiniętą formą nowotworu. ateriał i metody: Badaniami objęto 44 pacjentki: w 5 przypadkach histopatologicznie nie potwierdzono cech rozrostu, w 26 przypadkach potwierdzono histopatologicznie rozrost endometrium, u 13 pacjentek zdiagnozowano raka błony śluzowej trzonu macicy. Wyniki: Badania przeprowadzono przy użyciu mikromacierzy typu custom-made 4x180K firmy BlueGnome. W przypadkach bez rozrostu zdiagnozowaliśmy zmiany o charakterze CNV’s (Copy Number Variation), które z różną częstością występują w genomie populacji osób zdrowych. Istotne niezrównoważenie genomu zostało wykryte u 26 (100 %) pacjentek z rozpoznanymi rozrostami oraz u 11 (84, 6%) pacjentek z rozpoznanym rakiem endometrium. Wykryliśmy również dotąd nieopisywane zmiany zlokalizowane w charakterystycznych regionach genomu. Wnioski: Technika aCGH jest efektywnym narzędziem do analizy aberracji chromosomowych. Badanie niestabilności chromosomowej, czyli określenie rodzaju i zakresu zmian w chromosomach, jest badaniem pozwalającym ustalić regiony krytyczne, a co za tym idzie zidentyfikować geny lub grupy genów ważne dla powstawania i rozwoju raka endometrium. W oparciu o przeprowadzone badania zaproponowaliśmy hipotetyczny model sekwencji zmian genetycznych towarzyszących wielostopniowemu procesowi transformacji nowotworowej endometrium

NGS analysis of collagen type I genes in Polish patients with Osteogenesis imperfecta: a nationwide multicenter study

Osteogenesis imperfecta (OI) is a rare genetic disorder of the connective tissue. It presents with a wide spectrum of skeletal and extraskeletal features, and ranges in severity from mild to perinatal lethal. The disease is characterized by a heterogeneous genetic background, where approximately 85%–90% of cases have dominantly inherited heterozygous pathogenic variants located in the COL1A1 and COL1A2 genes. This paper presents the results of the first nationwide study, performed on a large cohort of 197 Polish OI patients. Variants were identified using a next-generation sequencing (NGS) custom gene panel and multiplex ligation probe amplification (MLPA) assay. The following OI types were observed: 1 (42%), 2 (3%), 3 (35%), and 4 (20%). Collagen type I pathogenic variants were reported in 108 families. Alterations were observed in α1 and α2 in 70% and 30% of cases, respectively. The presented paper reports 97 distinct causative variants and expands the OI database with 38 novel pathogenic changes. It also enabled the identification of the first glycine-to-tryptophan substitution in the COL1A1 gene and brought new insights into the clinical severity associated with variants localized in “lethal regions”. Our results contribute to a better understanding of the clinical and genetic aspects of OI

TCEAL1 Loss-of-Function Results in an X-Linked Dominant Neurodevelopmental Syndrome and Drives the Neurological Disease Trait in Xq222 Deletions

An Xq22.2 region upstream of PLP1 has been proposed to underly a neurological disease trait when deleted in 46,XX females. Deletion mapping revealed that heterozygous deletions encompassing the smallest region of overlap (SRO) spanning six Xq22.2 genes (BEX3, RAB40A, TCEAL4, TCEAL3, TCEAL1, and MORF4L2) associate with an early-onset neurological disease trait (EONDT) consisting of hypotonia, intellectual disability, neurobehavioral abnormalities, and dysmorphic facial features. None of the genes within the SRO have been associated with monogenic disease in OMIM. Through local and international collaborations facilitated by GeneMatcher and Matchmaker Exchange, we have identified and herein report seven de novo variants involving TCEAL1 in seven unrelated families: three hemizygous truncating alleles; one hemizygous missense allele; one heterozygous TCEAL1 full gene deletion; one heterozygous contiguous deletion of TCEAL1, TCEAL3, and TCEAL4; and one heterozygous frameshift variant allele. Variants were identified through exome or genome sequencing with trio analysis or through chromosomal microarray. Comparison with previously reported Xq22 deletions encompassing TCEAL1 identified a more-defined syndrome consisting of hypotonia, abnormal gait, developmental delay/intellectual disability especially affecting expressive language, autistic-like behavior, and mildly dysmorphic facial features. Additional features include strabismus, refractive errors, variable nystagmus, gastroesophageal reflux, constipation, dysmotility, recurrent infections, seizures, and structural brain anomalies. An additional maternally inherited hemizygous missense allele of uncertain significance was identified in a male with hypertonia and spasticity without syndromic features. These data provide evidence that TCEAL1 loss of function causes a neurological rare disease trait involving significant neurological impairment with features overlapping the EONDT phenotype in females with the Xq22 deletion