Aleksandra Divac

A novel role for cardiac ankyrin repeat protein Ankrd1/CARP as a co-activator of the p53 tumor suppressor protein

The muscle ankyrin repeat protein (MARP) family member Ankrd1/CARP is a part of the titin-mechanosensory signaling complex in the sarcomere and in response to stretch it translocates to the nucleus where it participates in the regulation of cardiac genes as a transcriptional co-repressor. Several studies have focused on its structural role in muscle, but its regulatory role is still poorly understood. To gain more insight into the regulatory function of Ankrd1/CARP we searched for transcription factors that could interact and modulate its activity. Using protein array methodology we identified the tumor suppressor protein p53 as an Ankrd1/CARP interacting partner and confirmed their interaction both in vivo and in vitro. We demonstrate a novel role for Ankrd1/CARP as a transcriptional co-activator, moderately up regulating p53 activity. Furthermore, we show that p53 operates as an upstream effector of Ankrd1/CARP, by up regulating the proximal ANKRD1 promoter. Our findings suggest that, besides acting as a transcriptional co-repressor, Ankrd1/CARP could have a stimulatory effect on gene expression in cultured skeletal muscle cells. It is probable that Ankrd1/CARP has a role in the propagation of signals initiated by myogenic regulatory factors (MRFs) during myogenesis.

The CFTR M470V Gene Variant as a Potential Modifier of COPD Severity: Study of Serbian Population

Chronic obstructive pulmonary disease (COPD) is a complex disease influenced by genetic and environmental factors. Cystic fibrosis transmembrane conductance regulator (CFTR) protein is an important component of the lung tissue homeostasis, involved in the regulation of the rate of mucociliary clearance. As it is known that certain CFTR variants have consequences on the function of CFTR protein, the aim of this study was to examine the possible role of F508del, M470V, Tn locus, and R75Q variants in COPD development and modulation. Total number of 86 COPD patients and 102 control subjects were included in the study. Possible association between COPD susceptibility, severity, and onset of the disease and allele or genotype of four analyzed CFTR variants was examined. No associations were detected between COPD development, onset of the disease and tested CFTR alleles and genotypes. However, VV470 genotype was associated with mild/moderate COPD stages in comparison to severe/very severe ones (OR = 0.29, 95%CI = 0.11-0.80, p = 0.016). Our study showed that patients with VV470 genotype had a 3.4-fold decreased risk for the appearance of severe/very severe COPD symptoms, and the obtained results indicate that this genotype may have a protective role. These results also suggest the importance of studying CFTR gene as a modifier of this disease.

Novel ORC4L Gene Mutation in B-Cell Lymphoproliferative Disorders

B-cell lymphoproliferative disorders are characterized by marked genetic, morphological, and clinical heterogeneity. The identification of prognostic markers could help to develop risk-adapted treatment strategies. Because proliferation of cells is essential for tumor growth, analysis of the cell cycle might give additional information on tumor progression and clinical behavior. Because initiation of DNA replication represents a significant step in cell division, it is worthwhile to focus the attention to the origin recognition complex (ORC), protein complex essential for initiation of DNA replication. Studies have already shown that ORC-associated factors give a more accurate assessment of cell proliferation than previous markers for many types of malignancies, but so far there have been no studies of eventual role of ORC4L in B-cell lymphoproliferative disorders. Here, we describe 3 patients with B-cell lymphoproliferative disorders (2 with non-Hodgkin lymphoma and 1 with nonsecretory multiple myeloma) carrying a novel A286V mutation within ORC4L gene. All 3 patients were in the advanced stage of disease, but their response to the chemotherapy treatment was good and they achieved complete clinical remission in a relatively short period. Although the functional relevance of this mutation has not yet been elucidated, our observation raises a possibility that A286V mutation, which is constitutively present in these patients, might represent a favorable prognostic marker in B-cell lymphoproliferative disorders.

Human initiation protein Orc4 prefers triple stranded DNA

In higher eukaryotes mechanism of DNA replication origin recognition and binding by origin recognition complex (ORC) is still unknown. Origin transfer studies have shown that origin sites are genetically determined, containing functionally interchangeable modules. One of such modules from the human lamin B2 origin of replication has the ability to adopt unorthodox structure partly composed of intramolecular triplex. Sequences involved in triplex formation coincide with ORC binding sites both in vitro and in vivo. To explore potential significance of unorthodox DNA structures in origin recognition by ORC, we tested DNA binding properties of human ORC subunit 4 (HsOrc4) which has independent DNA binding activity in vitro and similar binding characteristics as ORC holocomplex. Our results demonstrated that DNA binding activity of HsOrc4 depends on length and structure of DNA with triplex being the protein’s preferred binding target. Such feature could play part in origin selection through directing ORC to DNA sequence prone to adopt unorthodox structure.

Matrix metalloproteinases gene variants in idiopathic disseminated bronchiectasis.

Background The excess of matrix metalloproteinases (MMPs) might be associated with the airways destruction or dilatation in bronchiectasis. The functional promoter polymorphisms of MMP1 and MMP9 genes, involved in the extracellular matrix remodeling, might increase the expression of MMPs leading to the development of bronchiectasis. Methods Detection of MMP1 G-1607GG and MMP9 C-1562T gene variants was performed on 37 patients with idiopathic disseminated bronchiectasis and 102 control subjects. We also described a novel method for simple and rapid detection of MMP1 G-1607GG polymorphism. Results The frequency of -1607GG allele was significantly higher in the group of patients than in control subjects (P = 0.014). The heterozygote genotype showed association with bronchiectasis (odds ratio, 5.3; 95% confidence intervals, 1.4-20.0). The association was even stronger in homozygotes for -1607GG allele (odds ration, 8.7; 95% confidence intervals, 1.9-41.0). The allelic and genotype frequencies of MMP9 C-1562T variant did not show significant differences between the groups. Conclusions This is the first report concerning a role of MMP1 G-1607GG and MMP9 C-1562T variants in pathogenesis of idiopathic disseminated bronchiectasis. The results of our study revealed the association of -1607GG allele and the lack of association of MMP9 C-1562T variant with the disease.

Isoelectric focusing phenotyping and denaturing gradient gel electrophoresis genotyping: a comparison of two methods in detection of alpha-1-antitrypsin variants

Laboratory diagnosis of alpha-1-antitrypsin (AAT) deficiency is routinely performed by phenotyping methods, which include measurement of serum alpha-1-antitrypsin concentration and isoelectric focusing (IEF). Several DNA-based methods are also used for AAT deficiency testing, but they still have not become part of routine diagnostics. The aim of the study was to identify AAT variants using 2 different methods, isoelectric focusing and denaturing gradient gel electrophoresis (DGGE), and to compare obtained results as well as practical application of these 2 methods. The study has encompassed 27 emphysema patients. In all patients, AAT phenotypization was conducted using IEF, whereas genotypization was performed by DGGE. Variations detected by DGGE were characterized by DNA sequencing. Mutations in the AAT gene were detected in 6 patients. Three patients were homozygous for the Z allele, whereas 1 patient was heterozygous. In 2 patients, novel AAT variants, G320R and V321F, were detected. When results obtained by IEF and DGGE were compared, it was observed that IEF results were inconclusive or misinterpreted in 5 cases (18.5%). Both methods proved to be reliable for detection of the Z alleles, whereas discrepancy existed for M4 allele and rare variants. Therefore, the optimal strategy for diagnostics of AAT deficiency should encompass detection of the most common AAT variants by IEF and screening for the less common variants by DGGE in combination with sequencing.

Noncanonical DNA Elements in the Lamin B2 Origin of DNA Replication

DNA replication origins of eukaryotes lack linear replicator elements but contain short (dT)n (dA)n sequences that could build mutually equivalent unorthodox structures. Here we report that the lamin B2 origin of DNA replication adopts an alternative form characterized by unpaired regions CTTTTTTTTTTCC/GGAAAAAAAAAAG (3900–3912) and CCTTTTTTTTC/GAAAAAAAAGG (4141–4151). Both unpaired regions are resistant to DNase and except in central parts of their homopyrimidine strands are sensitive to single strand-specific chemicals. Interactions that protect central pyrimidines probably stabilize the bubble-like areas. Because DNA fragments containing either one or both bubbles migrate in TBM (89 mm Tris base, 89 mm boric acid, and 2 mm MgCl2) PAGE even faster than expected from their linear size, interacting regions are expected to belong to the same molecule. In an origin fragment containing a single bubble, free homopyrimidine strand can only interact with Hoogsteen hydrogen bonding surfaces from a complementary double stranded sequence. Indeed, this origin fragment reacts with triplex preferring antibody. In competition binding experiments control double stranded DNA or single stranded (dT)40 do not affect origin-antibody interaction, whereas TAT and GGC triplexes exert competitive effect. Because the chosen fragment does not contain potential GGC forming sequences, these experiments confirm that the lamin B2 origin adopts a structure partly composed of intramolecular TAT triads.

Identification of a rare p.G320R alpha-1-antitrypsin variant in emphysema and lung cancer patients

The alpha-1-antitrypsin (A1AT) gene is highly polymorphic, with more than 100 genetic variants identified of which some can affect A1AT protein concentration and/or function and lead to pulmonary and/or liver disease. This study reports on the characterization of a p.G320R variant found in two patients, one with emphysema and the other with lung cancer. This variant results from a single base-pair substitution in exon 4 of the A1AT gene, and has been characterized as P by isoelectric focusing. Functional evaluation of the A1AT p.G320R variant was through comparing specific trypsin inhibitory activity in two patients with pulmonary disorders, carriers of the p.G320R variant, and 19 healthy individuals, carriers of normal A1AT M variants. Results showed that specific trypsin inhibitory activity was lower in both emphysema (2.45 mU/g) and lung cancer (2.07 mU/g) patients than in carriers of the normal variants (range 2.51-3.71 mU/g). This rare A1AT variant is associated with reduced functional activity of A1AT protein. Considering that it was found in patients with severe pulmonary disorders, this variant could be of clinical significance.

Formation of noncanonical DNA structures mediated by human ORC4, a protein component of the origin recognition complex.

Many genomic sequences, DNA replication origins included, contain specific structural motifs prone to alternative base pairing. Structural rearrangements of DNA require specific environmental conditions and could be favored by chemical agents or proteins. To improve our understanding of alternative conformations of origins and the manner in which they form, we have investigated the effect of DNA-binding, AAA+ protein human ORC4 on single-stranded origin DNA or various oligonucleotides. Here we demonstrate that human ORC4 stimulated formation of inter- and intramolecular T.A.T triplexes and created novel structures, such as homoadenine duplexes. Adenine-based structures were held together by Hoogsteen hydrogen bonds, as demonstrated on 7-deaza-dAMP- or dAMP-containing substrates, and characterized by increased thermal stability. Adenine pairing occurred only in the presence of human ORC4, in a neutral buffer supplemented with ATP and Mg (2+) ions. The protein mutant that could not bind ATP was inactive in this reaction. Since the action of human ORC4 could be biologically important, its potential impact on DNA replication is discussed.

Novel cftr gene sequence variation in Serbian patient with idiopathic disseminated bronchiectasis.

This paper reports a novel Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) gene variant, 1811+1G→T, detected in a 5-year-old girl diagnosed with idiopathic disseminated bronchiectasis and negative sweat chloride test (17 mmol/L). The performed CFTR gene mutation analysis included detection of the F508del mutation, analysis of Tn polymorphism and screening of CFTR exons 3, 10 and 11. The CFTR gene screening has shown the altered band pattern in exon 11. The DNA sequencing of CFTR exon 11 revealed the presence of the novel sequence variation 1811+1G→T in heterozygous state. This sequence variation was not found in any of 100 control alleles, analyzed by polymerase chain reaction – restriction fragment length polymorphism method. The novel sequence variation 1811+1G→T is located at the splicing site at the boundary of exon 11 and intron 11 and might be either a sequence variation or a splicing site defect.