Telomerase activity, apoptosis and cell cycle progression in ataxia telangiectasia lymphocytes expressing TCL1.

Individuals affected by ataxia telangiectasia (AT) have a marked susceptibility to cancer. Ataxia telangiectasia cells, in addition to defects in cell cycle checkpoints, show dysfunction of apoptosis and of telomeres, which are both thought to have a role in the progression of malignancy. In 1-5% of patients with AT, clonal expansion of T lymphocytes carrying t(14;14) chromosomal translocation, deregulating TCL1 gene(s), has been described.

Telomeric associations and chromosome instability in ataxia telangiectasia T cells characterized by TCL1 expression.

T-cell tumors in ataxia telangiectasia (AT), such as T-PLL/T-CLL, are first preceded by the development of a large clone of T-lymphocytes, characterized by chromosomal rearrangements, which usually involve specific regions such as the 14q11 region. Malignancy develops years later, after additional chromosomal changes resulting from the genomic instability consequent to ATM disruption and to the activation of the TCL1 oncogene. Here we report the results of a cytogenetic follow-up of an AT patient (AT94-1), still without signs of hematological abnormalities, bearing a T-lymphocyte clone characterized by the t(14;14)(q11;q32) rearrangement and having TCL1 expression.

Chromosomal alterations and male infertility.

Reduced male fertility can be caused by genetic factors affecting gamete formation or function; in particular, chromosome abnormalities are a possible cause of male subfertility as shown by their higher frequency in infertile men than in the general male population. Meiotic studies in a number of these males have shown spermatogenesis breakdown, often related to alterations in the process of chromosome synapsis. Indeed, any condition that can interfere with X-Y bivalent formation and X-chromosome inactivation is critical to the meiotic process; furthermore, asynapsed regions may themselves represent a signal for the meiotic checkpoint that eliminates spermatocytes with synaptic errors.

Effects of poly(ADP-ribose) polymerase inhibition on cell death and chromosome damage induced by VP16 and bleomycin.

Poly(ADP-ribose) polymerase (PARP) is a DNA-binding protein involved in cellular response to various genotoxic agents. To understand the role of PARP in the mechanisms which lead from specific DNA damage to cell death, we studied the effects of PARP inhibition in human lymphoblasts damaged with bleomycin (BLM) and VP16. These agents can induce DNA breakage but through different mechanisms, enabling the study of the different effects of PARP in inducing apoptosis in damaged cells.

Erythrocyte uroporphyrinogen decarboxylase activity: diagnostic value and relationship with clinical features in hereditary porphyria cutanea tarda.

A marked discrepancy between mild and late clinical features and a nearly complete absence of erythrocyte uroporphyrinogen decarboxylase activity (Ery-UROD activity) was observed in a case of inherited porphyria cutanea tarda. The entity and time of appearance of clinical features, the onset of clinical symptoms after exposure to contributing factors, the effectiveness of phlebotomies and heterozygosity of the mother alone for uroporphyrinogen decarboxylase (UROD) deficiency were typical for familial porphyria cutanea tarda (F-PCT), whereas the extremely low UROD activity was peculiar to hepatoerythropoietic porphyria (HEP). These observations indicate that: 1) Ery-UROD activity may not always be useful to discriminate between F-PCT and HEP; 2) Ery-UROD activity does not always correlate with clinical symptoms; 3) in inherited UROD deficiency, the genetic defect may be heterogeneous.

Effects of topoisomerase II inhibition in lymphoblasts from patients with progeroid and "chromosome instability" syndromes.

DNA topoisomerase II is involved in DNA topologic changes through the formation of a cleavable complex. This is stabilized by the antitumor drug VP16, which results in DNA breakage, aberrant recombination, and cell death. In this work, we compare the chromosomal damage induced by VP16 with that induced by bleomycin (BLM) in lymphoblasts from patients affected by the chromosome breakage syndromes ataxia telangiectasia (AT), xeroderma pigmentosum (XP), and Bloom syndrome (BS), and by the progeroid syndromes Werner (WS) and Cockayne (CS).

VP16 hypersensitivity and increased faulty recombination in ataxia telangiectasia lymphocytes characterized by the tandem translocation t(14;14)(q11;q32).

Ataxia telangiectasia (AT) patients show variable degrees of immunodeficiency and a higher than normal predisposition to lymphoid malignancies. AT cells are characterized by spontaneous chromosome instability resulting in chromosome breakage and in non random chromosome rearrangements. Sequential cytogenetic studies on T-lymphocytes from an AT patient showed the progressive development of a clone bearing a tandem translocation t(14;14)(q11;q32).

Expression of genes carried by pR plasmid in damaged E. coli and mouse cells.

In LTA mouse cells pR plasmid constitutively expresses itself resulting in protection against typical SOS inducers (UV, 4NQO) and in sensitization to different DNA-damaging agents (MNNG, cisDDP, BLM and geneticin (G418). The pR sensitizing effect is specific to mammalian cells, since the plasmid can only protect prokaryotic cells against the damaging agents tested. The pR protecting effect requires the expression of both the uvp1 and uvp2 (mucAB) regions in bacteria as well as in mouse cells.

Neurological and cytogenetic study in early-onset ataxia-telangiectasia patients.

The clinical diagnosis of ataxia-telangiectasia (AT) is difficult before the age of 4 years. We report clinical and cytogenetic data on three early-onset, early-diagnosed AT patients at the age of 12, 18 and 22 months, respectively. Postural instability of the trunk, characterized by motor impersistence, was the earliest neurological sign detected as early as 1 year of life.

Heterogeneity in ataxia-telangiectasia: classical phenotype associated with intermediate cellular radiosensitivity.

We identified a subgroup of ataxia-telangiectasia (AT) patients (2 sibs and 1 unrelated case) characterized by typical clinical manifestations of the disease and cellular radiosensitivity intermediate between classical AT and normal subjects. Our data and a literature review of the intermediate radiosensitivity AT cases show that radioresistant DNA synthesis, cellular radiosensitivity (measured in terms of survival and chromosome breakage), and the clinical hallmarks behave independently. This raises a number of interesting questions about the correlation between radiobiological and clinical features, and about the nature of the AT gene(s).

Human cells (normal and ataxia telangiectasia) transfected with pR plasmid are hypersensitive to DNA strand-breaking agents.

Ataxia telangiectasia (AT) cells are known to be hypersensitive to ionizing radiations and to drugs such as bleomycin and epipodophyllotoxin VP16, a topoisomerase II poison. Both of these produce DNA double-strand breaks even if through different mechanisms. In this work we analyzed the sensitivity to bleomycin and to epipodophyllotoxin of AT cells after transfection with pR plasmid.

Establishment of a new Epstein-Barr virus-immortalized cell line from chronic lymphocytic leukemia with trisomy of chromosome 12 that produces monoclonal IgM against a sheep RBC antigen.

Leukemia cells from a patient with chronic lymphocytic leukemia (CLL) were found to bind sheep RBC (SRBC) through their monoclonal surface IgM. A lymphoblastoid cell line was obtained by immortalization of leukemic cells with Epstein-Barr virus (EBV). Cultured leukemic cells were found to have a supernumerary chromosome 12, an abnormality typical of CLL of the B cell type.

The pR plasmid: a tool for discriminating between DNA lesions induced by different types of cytotoxic agents in cultured mammalian cells.

The LA-D cells, obtained by cotransformation of LTA mouse cells (tk- aprt-) with pR plasmid and with tk gene as selective marker, are significantly more resistant to UV light and 4-nitroquinoline-N-1-oxide than LTA control cells. In this work, we report that the LA-D cells exhibit different degrees of response to various DNA-damaging agents: wild-type survival to mitomycin, increased sensitivity to bleomycin, cis-diamminedichloroplatinum and N-methyl-N'-nitro-N-nitrosoguanidine. The pR plasmid could, therefore, play an important role in the DNA-repair mechanisms that modulate the cytotoxic effect of the DNA-inhibitory agents.

Variant of ataxia-telangiectasia with low-level radiosensitivity.

In the present study we examined cells from several patients clinically diagnosed as having ataxia-telangiectasia (AT), for the capacity of their cells to inhibit DNA synthesis following exposure to gamma irradiation, and for the rate of spontaneous or bleomycin-induced chromosomal aberrations. Cells from two patients showed normal inhibition of DNA synthesis and levels of induced chromosomal aberrations intermediate between normal and AT cells. These two patients had only minimal immunologic impairment.

Premature centromere splitting in a presumptive mild form of Roberts syndrome.

Cytogenetic investigations performed on lymphocytes from a 29-year-old woman with no severe anomalies, allowed us to recognize a mild form of Roberts syndrome. The proposita's metaphases showed a consistent centromere splitting, especially affecting chromosomes 16, 19, 21, and 22. This centromere separation sequence seems to be unique to Roberts syndrome cells.

Cytogenetic investigations on Werner's syndrome, Acrogeria and Keratosis Palmo-Plantaris.

The frequencies of sister chromatid exchanges and of aspecific chromosome aberrations have been investigated in the lymphocytes from a Werner patient, from an Acrogeria patient and from three members of a family with Keratosis Palmo-Plantaris. These investigations point out that: 1) the SCE frequency is significatively enhanced in Werner as in KPP lymphocytes, 2) the frequency of aspecific chromosome aberrations is increased only in Werner lymphocytes, without evidence of variegated translocation mosaicism. The findings confirm that SCE and chromosome aberrations do not necessarily result from the same genetic damage and that SCE may represent the cytological evidence of unexcised non fatal DNA lesions, which occasionally may be responsible for carcinogenesis.

Peculiar mosaicism 47,XYY/48,XYYY/49,XYYYY in man.

The chromosome analysis in a 9 years-old boy showed the presence of three cell lines : 47,XYY (28%) ; 48,XYYY (68%); 49,XYYYY (4%). Since the most frequent cells bear three Y chromosomes and the karyotype of the propositu's father is normal, it is suggest that the propositus arose from an YYY sperm and that the observed mosaicism originated from a subsequent postzygotic non-disjunction.

Partial deletion of the X chromosome in gonadal dysgenesis 46,X,del(X)(p22) identified by BudR treatment.

In this report we describe a deletion of the short arm of the X chromosome in a 16-year-old female with gonadal dysgenesis. The breakpoint was localized by BUdR treatment and acridine orange staining in region 2, band 2. Of the examined cells, 3% showed an early replication of the deleted X chromosome.

Histological and histochemical investigations of achondroplastic mice: a possible model of human achondroplasia.

Histological and histochemical investigations of tibial epiphyses, costo-chondral junctions and caudal vertebrae of achondroplastic (cn) mice have shown that, in spite of conspicuous reduction of bone length, endochondrial ossification occurs in much the same way as in controls. Moreover, the histological structure of seriated cartilage, and the distribution of proteoglycans in resting cartilage are the same in cn/cn mice and in controls. The only difference betweeen the two types of animals is represented by the occurence of early aging-like changes of chondrocytes and cartilage matrix in achondroplastic mice, leading to premature shortening of the cell columns and to early reduction of the proteoglycan concentration.