Vassiliki Aleporou-Marinou

Distinct innate immunity pathways to activation and tolerance in subgroups of chronic lymphocytic leukemia with distinct immunoglobulin receptors.

Subgroups of patients with chronic lymphocytic leukemia (CLL) have distinct expression profiles of Toll-like receptor (TLR) pathway-associated genes. To test the hypothesis that signaling through innate immunity receptors may influence the behavior of the malignant clone, we investigated the functional response triggered by the stimulation of TLRs and NOD2 in 67 CLL cases assigned to different subgroups on the basis of immunoglobulin heavy variable (IGHV) gene usage, IGHV gene mutational status or B-cell receptor (BcR) stereotypy. Differences in the induction of costimulatory molecules and/or apoptosis were observed in mutated versus unmutated CLL. Different responses were also identified in subsets with stereotyped BcRs, underscoring the idea that “subset-biased” innate immunity responses may occur independently of mutational status. Additionally, differential modulation of kinase activities was induced by TLR stimulation of different CLL subgroups, revealing a TLR7-tolerant state for cases belonging to stereotyped subset #4. The distinct patterns of TLR/NOD2 functional activity in cells from CLL subgroups defined by the molecular features of the clonotypic BcRs might prove relevant for elucidating the immune mechanisms underlying CLL natural history and for defining subgroups of patients who might benefit from treatment with specific TLR ligands.

Altered expression pattern of integrin alphavbeta3 correlates with actin cytoskeleton in primary cultures of human breast cancer

BackgroundIntegrins are transmembrane adhesion receptors that provide the physical link between the actin cytoskeleton and the extracellular matrix. It has been well established that integrins play a major role in various cancer stages, such as tumor growth, progression, invasion and metastasis. In breast cancer, integrin alphavbeta3 has been associated with high malignant potential in cancer cells, signaling the onset of widespread metastasis. Many preclinical breast cancer studies are based on established cell lines, which may not represent the cell behavior and phenotype of the primary tumor of origin, due to undergone genotypic and phenotypic changes. In the present study, short-term primary breast cancer cell cultures were developed. Integrin alphavbeta3 localization was studied in correlation with F-actin cytoskeleton by means of immunofluorescence and immunogold ultrastructural localization. Integrin fluorescence intensities were semi-quantitatively assessed by means of computerized image analysis, while integrin and actin expression was evaluated by Western immunoblotting.ResultsIn the primary breast cancer epithelial cells integrin alphavbeta3 immunofluorescence was observed in the marginal cytoplasmic area, whereas in the primary normal breast epithelial cells it was observed in the main cell body, i.e. in the ventrally located perinuclear area. In the former, F-actin cytoskeleton appeared well-formed, consisting of numerous and thicker stress fibers, compared to normal epithelial cells. Furthermore, electron microscopy showed increased integrin alphavbeta3 immunogold localization in epithelial breast cancer cells over the area of stress fibers at the basal cell surface. These findings were verified with Western immunoblotting by the higher expression of integrin beta3 subunit and actin in primary breast cancer cells, revealing their reciprocal relation, in response to the higher motility requirements, determined by the malignant potential of the breast cancer cells.ConclusionA model system of primary breast cancer cell cultures was developed, in an effort to maintain the closest resembling environment to the tumor of origin. Using the above system model as an experimental tool the study of breast tumor cell behavior is possible concerning the adhesion capacity and the migrating potential of these cells, as defined by the integrin alphavbeta3 distribution in correlation with F-actin cytoskeleton.

NUCKS overexpression in breast cancer.

BackgroundNUCKS (Nuclear, Casein Kinase and Cyclin-dependent Kinase Substrate) is a nuclear, DNA-binding and highly phosphorylated protein. A number of reports show that NUCKS is highly expressed on the level of mRNA in several human cancers, including breast cancer. In this work, NUCKS expression on both RNA and protein levels was studied in breast tissue biopsies consisted of invasive carcinomas, intraductal proliferative lesions, benign epithelial proliferations and fibroadenomas, as well as in primary cultures derived from the above biopsies. Specifically, in order to evaluate the level of NUCKS protein in correlation with the histopathological features of breast disease, immunohistochemistry was employed on paraffin sections of breast biopsies of the above types. In addition, NUCKS expression was studied by means of Reverse Transcription PCR (RT-PCR), real-time PCR (qRT-PCR) and Western immunoblot analyses in the primary cell cultures developed from the same biopsies.ResultsThe immunohistochemical Results showed intense NUCKS staining mostly in grade I and II breast carcinomas compared to normal tissues. Furthermore, NUCKS was moderate expressed in benign epithelial proliferations, such as adenosis and sclerosing adenosis, and highly expressed in intraductal lesions, specifically in ductal carcinomas in situ (DCIS). It is worth noting that all the fibroadenoma tissues examined were negative for NUCKS staining. RT-PCR and qRT-PCR showed an increase of NUCKS expression in cells derived from primary cultures of proliferative lesions and cancerous tissues compared to the ones derived from normal breast tissues and fibroadenomas. This increase was also confirmed by Western immunoblot analysis. Although NUCKS is a cell cycle related protein, its expression does not correlate with Ki67 expression, neither in tissue sections nor in primary cell cultures.ConclusionThe results show overexpression of the NUCKS protein in a number of non malignant breast lesions and cancerous tissues. In particular, the NUCKS overexpression in ADH and DCIS indicates a significant role of this protein in neoplastic progression.

Genetic recombination as a major cause of mutagenesis in the human globin gene clusters.

OBJECTIVES Homologous recombination is a frequent phenomenon in multigene families and as such it occurs several times in both the alpha- and beta-like globin gene families. In numerous occasions, genetic recombination has been previously implicated as a major mechanism that drives mutagenesis in the human globin gene clusters, either in the form of unequal crossover or gene conversion. Unequal crossover results in the increase or decrease of the human globin gene copies, accompanied in the majority of cases with minor phenotypic consequences, while gene conversion contributes either to maintaining sequence homogeneity or generating sequence diversity. The role of genetic recombination, particularly gene conversion in the evolution of the human globin gene families has been discussed elsewhere. CONCLUSION Here, we summarize our current knowledge and review existing experimental evidence outlining the role of genetic recombination in the mutagenic process in the human globin gene families.

Influence of chlorambucil, a bifunctional alkylating agent, on the histone variant biosynthesis of HEp-2 cells.

The effect of chlorambucil on the synthesis of histone variants of a cancer cell line HEp-2 is analysed and compared to that of nontreated and hydroxyurea treated cells. Cell proteins were labelled with [14C]lysine and [14C]arginine and histone variants resolved by one- or two-dimensional electrophoresis. Chlorambucil shows no significant decrease in total protein synthesis but shows a significant decrease in histone biosynthesis. It does not selectively inhibit the synthesis of the S-phase variants, i.e., H2A.1, H2A.2, H3.2 or the G1/G2 phase (basal) histone variants, i.e., H2A.Z, H2A.X and H3.3. On the contrary, hydroxyurea treated cells, which also show no significant decrease in amino acid incorporation into total cellular protein but do exhibit a significant inhibition of histone biosynthesis, show a selective inhibition of the synthesis of S-phase variants, but have no effect on the synthesis of basal histone variants. On the basis of histone variants being synthesized in the presence of chlorambucil, it is shown that although chlorambucil shows a specificity for histone synthesis inhibition it has a general action over the whole variant complement and is not coupled to S-phase synthesis in a way typical for DNA synthesis inhibiting drugs.

DISCUSSION PAPER PRENATAL DIAGNOSIS OF THALASSEMIA MAJOR IN GREECE: EVALUATION OF THE FIRST LARGE SERIES OF ATTEMPTS

The mean incidence of heterozygous , 3 thalassemia in Greece ranges between 3.3% and 14%.1-3 On the basis of this figure and the fact that the annual birth rate in this country is approximately 100,000 newborns, it is estimated that each year 800 couples risk giving birth to children with thalassemia major. Nowadays, information about this risk is spreading rapidly throughout the general population, and tests for the detection of carriers are easily available to young people through several programs. It is not surprising, therefore, that the ability to diagnose the severe form of the disease in utero *, has resulted in an exponentially increasing number of women seeking to have prenatal diagnosis rather than carrying a pregnancy at risk to term or having to resort to an abortion of a possibly unaffected child. Our group has been involved in prenatal diagnosis of thalassemia since the early steps of the procedure; the present paper summarizes our experience on the first 140 attempts. Technical aspects have been reported already and will not be repeated in detail here. The usual procedure is as follows: ( 1) Counseling of both partners about the chances and possibilities offered by the technique. (2) Localization of the placenta by ultrasound. If the placenta is considered to be accessible by the fetoscope no further measures are taken. Conversely, if it is foreseen that puncture of the placenta will create difficulties because of its position, the prospective mother is transfused with 4 units of packed red cells 10 days prior to the procedure. ( 3 ) In all experiments, a number of maternal erythrocytes equal to the number of cells obtained by the placental aspiration is processed in parallel with the fetal sample. (4) Separation of the globin chains is effected by chromatography on sodium carboxymethyl cellulose (CM-23) in urea-mercaptoethanol; the appropriate Na+ molarity gradient has been developed empirically using five chambers of a mixing apparatus.6 A typical example is shown in FIGURE 1. Analysis of the results is presented in the following TABLE 1.

Presence of alpha1-antitrypsin and transferrin in human follicular fluid--correlation with fertilization.

We purified two proteins with molecular masses of approximately 50 kDa and 80 kDa with N-terminal sequences similar to those of alpha1-antitrypsin (a1AT) and transferrin indicating that they are identical to or highly homologous to these proteins. Proteins from human follicular fluid were purified after ammonium sulfate fractionation followed by water dialysis and High Performance Liquid Chromatography. The fraction of peak 3 showed a single band on electrophoresis and its N-terminal amino acid sequence was similar to that of human serum transferrin. The fraction of peak 10 proved to be a glycoprotein and its N-terminal amino acid sequence was similar to that of human serum a1AT. There are indications that transferrin may be involved in the fertilization process. Sperm motion was assessed employing computer-assisted semen analysis. The addition of purified protein to prepared sperm samples from normospermic men significantly increases the straight-line velocity (VSL), the amplitude of lateral head displacement (ALH) and the number of progressively motile sperm. a1AT does not seem to have a stimulatory effect on sperm motility.

CER1 gene variations associated with bone mineral density, bone markers, and early menopause in postmenopausal women

BackgroundOsteoporosis has a multifactorial pathogenesis characterized by a combination of low bone mass and increased fragility. In our study, we focused on the effects of polymorphisms in CER1 and DKK1 genes, recently reported as important susceptibility genes for osteoporosis, on bone mineral density (BMD) and bone markers in osteoporotic women. Our objective was to evaluate the effect of CER1 and DKK1 variations in 607 postmenopausal women. The entire DKK1 gene sequence and five selected CER1 SNPs were amplified and resequenced to assess whether there is a correlation between these genes and BMD, early menopause, and bone turnover markers in osteoporotic patients.ResultsOsteoporotic women seem to suffer menopause 2 years earlier than the control group. The entire DKK1 gene sequence analysis revealed six variations. There was no correlation between the six DKK1 variations and osteoporosis, in contrast to the five common CER1 variations that were significantly associated with BMD. Additionally, osteoporotic patients with rs3747532 and rs7022304 CER1 variations had significantly higher serum levels of parathyroid hormone and calcitonin and lower serum levels of osteocalcin and IGF-1.ConclusionsNo significant association between the studied DKK1 variations and osteoporosis was found, while CER1 variations seem to play a significant role in the determination of osteoporosis and a potential predictive role, combined with bone markers, in postmenopausal osteoporotic women.

Impact of ACE and ApoE polymorphisms on myocardial perfusion: correlation with myocardial single photon emission computed tomographic imaging

Coronary artery disease is associated with multiple genetic and environmental risk factors. In this study, we evaluated the correlation of angiotensin l-converting enzyme (ACE) (I/D) and ApoE gene polymorphisms (E2, E3, E4 and g.-219G/T) with myocardial perfusion. We examined 410 patients using exercise–rest myocardial perfusion single photon emission computed tomography (SPECT), in which the summed stress score (SSS), summed rest score (SRS) and summed difference score (SDS) indexes were calculated. Homozygotes for the ACE D allele had greater mean values of SSS (P<0.001) and SDS (P<0.001). In addition, E3 homozygotes, E4 heterozygotes and E4 homozygotes had significantly higher values of SSS and SDS compared with E3 heterozygotes (P<0.001); E4 homozygotes had significantly higher values of SSS and SDS compared with E3 homozygotes. Furthermore, for the g.-219G>T polymorphic site at the promoter region of ApoE gene, the mean values of SSS and SDS were significantly higher for T heterozygotes/homozygotes than for GG homozygotes. Adjusting for all demographic and clinical data using multiple linear regression analysis it was found that ACE D and both ApoE genotypes were independent predictors with a cumulative contribution for the prediction of SSS and SDS. Furthermore, logistic regression analysis revealed that all three genotypes had an independent predictive ability for abnormal SSS (SSS>2). These data provide the first evidence of an association and significant cumulative contribution of the aforementioned genotypes in myocardial perfusion with E4 allele having the strongest association followed by ACE D and ApoE g.-219T alleles.

A mini review of the high mobility group proteins of insects

High mobility group (HMG) proteins are an abundant class of chromosomal proteins facilitate assembly of higher order structures. The mammalian HMG proteins have been grouped into three distinct families on the basis of their characteristic functional sequence: the HMGB, the HMGN, and the HMGA family. The HMG proteins of Drosophila melanogaster and Chironomus tentans are the best characterized dipteran insect HMG proteins. Three abundant members of this group of nonhistone proteins were detected in those insects. Two of them belong to the HMGB family and one to the HMGA family. The possible relatedness of these proteins to the formation of higher order nucleoprotein structures and their possible role in the regulation of transcription is discussed.