Linking genomic reorganization to tumor initiation via the giant cell cycle.

To investigate the mechanisms underlying our recent paradoxical finding that mitotically incapacitated and genomically unstable polyploid giant cancer cells (PGCCs) are capable of tumor initiation, we labeled ovarian cancer cells with α-tubulin fused to green fluorescent protein, histone-2B fused to red fluorescent protein and FUCCI (fluorescent ubiquitination cell cycle indicator), and tracked the spatial and time-dependent change in spindle and chromosomal dynamics of PGCCs using live-cell fluorescence time-lapse recording. We found that single-dose (500 nm) treatment with paclitaxel paradoxically initiated endoreplication to form PGCCs after massive cell death. The resulting PGCCs continued self-renewal via endoreplication and further divided by nuclear budding or fragmentation; the small daughter nuclei then acquired cytoplasm, split off from the giant mother cells and acquired competency in mitosis. FUCCI showed that PGCCs divided via truncated endoreplication cell cycle (endocycle or endomitosis). Confocal microscopy showed that PGCCs had pronounced nuclear fragmentation and lacked expression of key mitotic proteins. PGCC-derived daughter cells were capable of long-term proliferation and acquired numerous new genome/chromosome alterations demonstrated by spectral karyotyping. These data prompt us to conceptualize a giant cell cycle composed of four distinct but overlapping phases, initiation, self-renewal, termination and stability. The giant cell cycle may represent a fundamental cellular mechanism to initiate genomic reorganization to generate new tumor-initiating cells in response to chemotherapy-induced stress and contributes to disease relapse.

Mdm2 overexpression and p73 loss exacerbate genomic instability and dampen apoptosis, resulting in B-cell lymphoma.

Many human tumors express high levels of the p53 inhibitor Mdm2, resulting from amplification of the Mdm2 locus or aberrant post-translational regulation of the Mdm2 protein. While the importance of Mdm2 in regulating p53 is clear, Mdm2 also has p53-independent roles. For example, overexpression of Mdm2 results in genomic instability in a p53-independent manner. In addition, Mdm2 has many additional binding partners, some of which, such as the tumor suppressor p73, have also been implicated in genomic instability. In this study, cells and tumors with Mdm2 overexpression and p73 loss exhibit increased genomic instability as compared with either alteration alone and cooperate in development of B-cell lymphomagenesis. Cytogenetic analysis of mouse embryonic fibroblasts and pre-malignant B cells demonstrates that loss of p73 exacerbates the chromosome breaks and fusions observed in Mdm2(Tg) cells. B-cell lymphomas from Mdm2(Tg);p73(+/-) mice retain the remaining p73 allele, exhibit elevated levels of the antiapoptotic protein Bcl2 and thus dampen apoptosis. In summary, Mdm2 overexpression and p73 loss cooperate in genomic instability and tumor development, indicating that the oncogenic function of Mdm2 is a combined effect of inhibiting p53 and p73 functions. Given that p73 is lost or silenced in human B-cell lymphomas, the Mdm2(Tg);p73(+/-) mouse serves as a model for human disease and may provide additional insight into the pathways that contribute to B-cell lymphomagenesis.

Cooperation between p53 and the telomere-protecting shelterin component Pot1a in endometrial carcinogenesis.

Type II endometrial cancer (EMCA) represents only 10% of all EMCAs, but accounts for 40% of EMCA-related mortality. Previous studies of human tumors have shown an association between Type II tumors and damaged telomeres. We hypothesized that the lack of murine Type II EMCA models is due to the extremely long telomeres in laboratory mouse strains. We previously showed that telomerase-null mice with critically short telomeres developed endometrial lesions histologically resembling endometrial intraepithelial carcinoma (EIC), the accepted precursor for Type II EMCA. However, these mice did not develop invasive endometrial adenocarcinoma, and instead succumbed prematurely to multi-organ failure. Here, we modeled critical telomere attrition by conditionally inactivating Pot1a, a component of the shelterin complex that stabilizes telomeres, within endometrial epithelium. Inactivation of Pot1a by itself did not stimulate endometrial carcinogenesis, and did not result in detectable DNA damage or apoptosis in endometrium. However, simultaneous inactivation of Pot1a and p53 resulted in EIC-like lesions by 9 months indistinguishable from those seen in late generation telomerase-null mice. These lesions progressed to invasive endometrial adenocarcinomas as early as 9 months of age with metastatic disease in 100% of the animals by 15 months. These tumors were poorly differentiated endometrial adenocarcinomas with prominent nuclear atypia, resembling human Type II cancers. Furthermore, these tumors were aneuploid with double-stranded DNA breaks and end-to-end telomere fusions and most were tetraploid or near-tetraploid. These studies lend further support to the hypothesis that telomeric instability has a critical role in Type II endometrial carcinogenesis and provides an intriguing in-vivo correlate to recent studies implicating telomere-dependent tetraploidization as an important mechanism in carcinogenesis.

A comparative study of efficacy and safety of azithromycin and ofloxacin in uncomplicated typhoid Fever: a randomised, open labelled study.

OBJECTIVE: To compare the efficacy and safety of azithromycin with ofloxacin in patients with uncomplicated typhoid fever. MATERIAL AND METHODS: Forty adult patients with bacteriologically or serologically diagnosed, uncomplicated typhoid fever were included from Medicine out-patient department at Government medical college, Amritsar, India. They were randomized into 2 groups of 20 patients each. Group I: patients received ofloxacin 200mg orally twice daily for 7 days. Group II: Patients received Azithromycin orally 1 gm on day 1 and then 500 mg daily from day 2 to day 6. The following parameters were noted a) fever clearance time b) cure rate c) adverse drug reaction d) recurrence of symptoms, if any, during 4 weeks follow up. RESULTS: Nineteen out of 20 patients from group I were cured with mean fever clearance time of 3.68 days while all 20 patients from group II were cured with mean fever clearance time of 3.65 days. No significant side effects were noted in any of the patients. No relapse was recorded in the present study in a follow up period of 4 weeks in both study groups. CONCLUSION: Both ofloxacin and Azithromycin are almost equally efficacious and safe in treatment of typhoid fever with no major adverse effect. Azithromycin is an effective alternative in conditions where ofloxacin is contraindicated i.e., children, pregnant women and quinolone resistant cases of typhoid fever.

MRI findings in methanol intoxication: a report of two cases.

Methanol is a highly toxic substance and acute methanol poisoning produces severe metabolic acidosis and serious neurological symptoms, including severe visual impairment, extrapyramidal signs and coma. Its similarity to ethanol in appearance and odour leads to accidental use. We present two cases of accidental methanol intoxication and discuss the MRI findings.

Human bone marrow transplant rejection is associated with telomere cleavage.

Telomeres that guard chromosomes are shortened with each cell division because of replication-dependent sequence loss at both termini. The gradual erosion of telomeric length has been directly related to the process of aging in vivo. Recently we have reported, in murine and human cancer cells treated with different apoptogens, cleavage and extrusion of telomeric DNA prior to cell death on one hand and an amplification of telomeric DNA in metastatic epithelial malignancies of different histopathologic origin on the other. This study tested our hypothesis that telomere cleavage is linked to transplant rejection in cancer patients receiving stem cells either from bone marrow (BM) or umbilical cord blood transfusion. Telomere integrity and mitotic catastrophe were studied by cytogenetic and molecular fluorescence in situ hybridization (FISH) techniques in two BM samples taken from a male stem cell transplant recipient diagnosed with aplastic anemia. The first BM sample, which was aspirated 27 days after transplant, was mitotically active. Only one of 50 metaphases showed a chromatid break. Every cell karyotyped was of male origin with 46, XY chromosome constitution. The second BM sample aspirated 52 days after transplant gave no metaphases and most interphase cells appeared dead. FISH preparations of the second BM sample showed cleavage and drastic reduction of telomeric DNA at the time the patient was rejecting the transplant. In contrast, the first BM sample had shown no indication of cleavage of the telomeric DNA, although the percentage of telomeric area was smaller than in the control. The replicative stress imposed on the stem cells engrafted may result in an accelerated aging effect, possibly due to the erosion of telomeric DNA. We, therefore, conclude that BM rejection could be directly associated with the cleavage, clustering, and extrusion of telomeric DNA in the donor cells.

The A3 adenosine receptor as a new target for cancer therapy and chemoprotection.

Adenosine, a purine nucleoside, acts as a regulatory molecule, by binding to specific G-protein-coupled A(1), A(2A), A(2B), and A(3) cell surface receptors. We have recently demonstrated that adenosine induces a differential effect on tumor and normal cells. While inhibiting in vitro tumor cell growth, it stimulates bone marrow cell proliferation. This dual activity was mediated through the A3 adenosine receptor. This study showed that a synthetic agonist to the A3 adenosine receptor, 2-chloro-N(6)-(3-iodobenzyl)-adenosine-5'-N-methyl-uronamide (Cl-IB-MECA), at nanomolar concentrations, inhibited tumor cell growth through a cytostatic pathway, i.e., induced an increase number of cells in the G0/G1 phase of the cell cycle and decreased the telomeric signal. Interestingly, Cl-IB-MECA stimulates murine bone marrow cell proliferation through the induction of granulocyte-colony-stimulating factor. Oral administration of Cl-IB-MECA to melanoma-bearing mice suppressed the development of melanoma lung metastases (60.8 +/- 6.5% inhibition). In combination with cyclophosphamide, a synergistic anti-tumor effect was achieved (78.5 +/- 9.1% inhibition). Furthermore, Cl-IB-MECA prevented the cyclophosphamide-induced myelotoxic effects by increasing the number of white blood cells and the percentage of neutrophils, demonstrating its efficacy as a chemoprotective agent. We conclude that A3 adenosine receptor agonist, Cl-IB-MECA, exhibits systemic anticancer and chemoprotective effects.

DNA damage-induced cell cycle checkpoints involve both p53-dependent and -independent pathways: role of telomere repeat binding factor 2.

Treatment of colon cancer cells with MNNG causes DNA damage with reduced telomeric signals in a p53-dependent manner, but increased cell cycle arrest in S-G(2)/M by both p53-dependent and independent mechanisms. Results also indicate that cellular levels of TRF2 may play a critical role in MNNG-induced cell cycle arrest and apoptosis of colon cancer cells.

Heterochromatin and interstitial telomeric DNA homology.

The purpose of this investigation was twofold. The first objective was to demonstrate that, in most of ten mammalian species commonly used in biomedical research, not all constitutive heterochromatin (C-bands) represents telomeric DNA. For example, the C-bands in human chromosomes, the long arm of the X and the entire Y chromosome of Chinese hamster, and most of the short arms of Peromyscus and Syrian hamster chromosomes are not telomeric DNA. In addition to the usual terminal telomeric DNA in the chromosomes of these mammalian species, the pericentromeric regions of seven or eight Syrian hamster chromosomes and all Chinese hamster chromosomes except pair one have pericentromeric regions that hybridize with telomeric DNA, some in C-bands and some not. The second objective was to describe a simple fluorescence in situ hybridization (FISH) reverse-printing procedure to produce black-and-white microphotographs of metaphase and interphase cells showing locations of telomeric DNA with no loss of resolution. Thus, at least three different types of heterochromatin (telomeric heterochromatin, nontelomeric heterochromatin and a combination of both) are present in these mammalian species, and this simple black-and-white reverse printing of telomeric FISH preparations can depict them economically without sacrificing clarity.

Permanent phenotypic and genotypic changes of prostate cancer cells cultured in a three-dimensional rotating-wall vessel.

A three-dimensional (3D) integrated rotating-wall vessel cell-culture system was used to evaluate the interaction between a human prostate cancer cell line, LNCaP, and microcarrier beads alone, or microcarrier beads previously seeded with either prostate or bone stromal cells. Upon coculture of LNCaP cells with microcarrier beads either in the presence or in the absence of prostate or bone stromal cells, 3D prostate organoids were formed with the expected hormonal responsiveness to androgen, increased cell growth, and prostate-specific antigen production. In this communication, we define permanent phenotypic and genotypic changes of LNCaP cells upon coculture with microcarrier beads alone, or with microcarrier beads previously seeded with either prostate or bone stromal cells. Most notably, we observed selective genetic changes, i.e., chromosomal losses or gains, as evaluated by both conventional cytogenetic and comparative genomic hybridization, in LNCaP sublines derived from the prostate organoids. Moreover, the derivative LNCaP cells appear to have altered growth profiles, and exhibit permanent and stable changes in response to androgen, estrogen, and growth factors. The derivative LNCaP sublines showed increased anchorage-independent growth rate, and enhanced tumorigenicity and metastatic potential when inoculated orthotopically in castrated athymic mice. Our results support the hypothesis that further nonrandom genetic and phenotypic changes in prostate cancer epithelial cells can occur through an event that resembles "adaptive mutation" such as has been described in bacteria subjected to nutritional starvation. The occurrence of such permanent changes may be highly contact dependent, and appears to be driven by specific microenvironmental factors surrounding the tumor cell epithelium grown as 3D prostate organoids.

Spontaneous regression of cutaneous melanoma in sinclair swine is associated with defective telomerase activity and extensive telomere erosion.

Recently we proposed the hypothesis that extensive telomeric association of chromosomes is an early manifestation of cell death and asked whether there are extensive telomeric associations present in metaphases of the spontaneously regressing Sinclair swine cutaneous melanoma (SSCM). Our results indicate that early passage SSCMs, in the accelerated growth phase, do not show telomeric associations but do have numerical and other specific structural abnormalities. However, the same melanoma cell lines at late passages or melanomas obtained from middle- and old-aged Sinclair swine show extensive telomeric associations in the form of dicentric, multicentric, and ring configurations. Such abnormal structures are present mostly in metaphases that are hyperploids. Increasing frequencies of apoptotic bodies were also observed in higher passage tumor cell lines obtained from younger animals or in melanomas obtained from older animals. The polymerase chain reaction (PCR)-based telomeric repeat amplification protocol (TRAP) assay shows no detectable telomerase activity in any of these regressing swine melanoma cell lines, neither in normal swine skin fibroblasts nor in nevi. However, the fetal swine (i.e., non-regressing) melanoma cells show telomerase activity. Fluorescence in situ hybridization (FISH) results using the commercially available human telomeric repeat DNA probe indicate a reduction of telomeric signals in metaphase and interphase cells of regressing melanomas. From these observations we conclude that spontaneous regression of SSCM is associated with the loss of telomerase activity and a reduction of telomeric repeats that results in the formation of multicentric and ring configurations. Such abnormal chromosome configurations are lost, following the breakage-fusion-bridge-cycles, and result in extensive DNA fragmentation, as shown by laddering experiments, and, finally, cell death.

Caspase-dependent apoptosis induced by telomere cleavage and TRF2 loss.

Chromosomal abnormalities involving telomeric associations (TAs) often precede replicative senescence and abnormal chromosome configurations. We report here that telomere cleavage following exposure to proapoptotic agents is an early event in apoptosis. Exposure of human and murine cancer cells to a variety of pro-apoptotic stimuli (staurosporine, thapsigargin, anti-Fas antibody, and cancer chemotherapeutic agents) resulted in telomere cleavage and aggregation, and finally their extrusion from the nuclei. Telomere loss was associated with arrest of cells in G2/M phase and preceded DNA fragmentation. Telomere erosion and subsequent large-scale chromatin cleavage were inhibited by overexpression of the anti-apoptotic protein, bcl-2, and two peptide caspase inhibitors (BACMK and zVADfmk), indicating that both events are regulated by caspase activation. The results demonstrate that telomere cleavage is an early chromatin alteration detected in various cancer cell lines leading to drug-induced apoptosis, and suggest that this event contributes to mitotic catastrophe and induction of cell death. Results also suggest that the decrease of telomeric-repeat binding factor 2 (TRF2) may be the earliest event in the ara-C-induced telomere shortening, induction of endoreduplication and chromosomal fragmentation leading to cell death.

Anvirzel, an extract of Nerium oleander, induces cell death in human but not murine cancer cells.

The purpose of this study was to examine the mechanism(s) and differential cell-killing effects of Anvirzel, an extract of oleander (Nerium oleander; family-Apocynaceae), and its derivative compound Oleandrin on human, canine and murine tumor cells. Cells received different concentrations of Anvirzel (1.0 ng/ml to 500 microg/ml) or Oleandrin (0.01 ng/ml to 50 microg/ml) in both continuously treated and pulse-treated/recovery cultures. The cytotoxicity of these compounds was then determined. Both Anvirzel and Oleandrin were able to induce cell killing in human cancer cells, but not in murine cancer cells; the cell-killing potency of Oleandrin was greater than that of Anvirzel. Canine oral cancer cells treated with Anvirzel showed intermediate levels of response, with some abnormal metaphases and cell death resulting from the treatment. From these results we conclude that Anvirzel and Oleandrin act in a species-specific manner, and while testing the effectiveness of a new compound for cancer treatment, one must use not only murine but a variety of cancer cells, including those of human origin.

Adenosine acts as an inhibitor of lymphoma cell growth: a major role for the A3 adenosine receptor.

In this study, we demonstrated several mechanisms exploring the inhibitory effect of low-dose adenosine on lymphoma cell growth. Adenosine, a purine nucleoside present in plasma and other extracellular fluids, acts as a regulatory molecule, by binding to G-protein associated cell-surface receptors, A1, A2 and A3. Recently we showed that low-dose adenosine released by muscle cells, inhibits tumour cell growth and thus attributes to the rarity of muscle metastases. In the present work, a cytostatic effect of adenosine on the proliferation of the Nb2-11C rat lymphoma cell line was demonstrated. This effect was mediated through the induction of cell cycle arrest in the G0/G1 phase and by decreasing the telomeric signal in these cells. Adenosine was found to exert its antiproliferative effect mainly through binding to its A3 receptor. The cytostatic anticancer activity, mediated through the A3 adenosine receptor, turns it into a potential target for the development of anticancer therapies.

Amplification of the Y chromosome in three murine tumor cell lines transformed in vivo by different human prostate cancers.

Conventional and molecular cytogenetic analyses of three murine cancer cell lines that had been induced in male athymic mice by the injection of three different human prostate cancer cell lines revealed selective amplification of the Y chromosome. In particular, analysis of metaphase and interphase nuclei by fluorescence in situ hybridization (FISH) with the mouse Y chromosome-specific DNA painting probe revealed the presence of various numbers of Y chromosomes, ranging from one to eight, with a large majority of nuclei showing two copies (46.5-60.1%). In Interphase nuclei, the Y chromosomes showed distinct morphology, allowing identification irrespective of whether the preparations were treated for 15 min or for 5 h with Colcemid, a chemical known to cause chromosome condensation. However, FISH performed on human lymphocyte cultures with chromosome-specific DNA painting probes other than the Y chromosome did not reveal condensed chromosome morphology in interphase nuclei even after 12 h of Colcemid treatment. Our FISH results indicate that (1) the Y chromosome is selectively amplified in all three cell lines; (2) the mouse Y chromosome number is comparable in both interphase and metaphase cells: (3) the Y chromosome number varies between one and eight, with a large majority of cells showing two or three copies in most interphase nuclei; (4) the condensation of the Y chromosome is not affected by the duration of Colcemid treatment but by its inherent DNA constitution; and (5) the number of copies of the Y chromosome is increased and retained not only in human prostate tumor cell lines but also in murine tumors induced by these prostate tumor cell lines.

Conventional cytogenetics alone is not sufficient for identifying interspecies cell line contamination.

Evidence from our laboratory suggests that conventional chromosome banding analysis alone is not sufficient for detecting interspecies contamination of cell lines. To differentiate noncycling interphase cells of murine or other species origin that may be contaminating a human cell line, molecular cytogenetic techniques such as fluorescence in situ hybridization (FISH) with a total human DNA probe must be used.

Amplification of telomeric DNA directly correlates with metastatic potential of human and murine cancers of various histological origin.

Telomeres, repeated DNA sequences (T2AG3)n that guard the ends of chromosomes, serve as a checkpoint for cell-cycle progression and regulate cell senescence and apoptosis. Loss of the telomeric repeats promotes genomic instability, which is the hallmark of most cancer cells. Whether this loss differs among tumor cells with malignant potential is unknown and was the goal of this study. An all-human telomeric DNA probe was used to perform fluorescence in situ hybridization (FISH) and the telomeric signals in interphase nuclei were quantitated using a computer software package. Southern blot analysis was carried out to measure terminal restriction fragment length (TRFL) in multiple cancer cell lines, including nonmetastatic and metastatic human breast, lung, prostate, colon, brain, and renal carcinomas, as well as human and murine melanoma clones and somatic cell hybrids. The metastatic capability of all cell lines, clones and somatic cell hybrids was evaluated subsequent to orthotopic implantation into nude mice. FISH preparations with telomeric DNA probes showed that the mean percent telomeric area in the metastatic nuclei was significantly greater than their nonmetastatic counterparts and Southern blotting in selected samples confirmed our findings. These data suggest that amplification of telomeres is directly correlated with invasive and metastatic potential of murine or human tumor cells.

Can genetic instability be studied at the single chromosome level in cancer cells? Evidence from human melanoma cells.

We evaluated whether genetic instability, which is the hallmark of cancer cells, can be investigated at the single chromosomal level. We established in culture and examined a human malignant melanoma cell line and its 11 distinct clones as well as peripheral blood cultures from the original patient by G-banding, C-banding, and silver-staining (AgNOR) techniques. There were six marker chromosomes common to most of the 11 clones and eight or nine additional marker chromosomes found in only one or in very few clones. Chromosome 1 had a pericentric inversion in the C-banded region in both the tumor and the lymphocyte metaphase spreads. This same homologue was also involved in the formation of one of the shared marker chromosomes; this marker, in turn, was rearranged to form two unique markers in one clone. Our findings suggest that genetic instability can be studied at the single chromosome level. Moreover, this study further supports our earlier contention that peripheral blood lymphocyte cultures can show chromosomal lesions that are stable markers in cancer cells.

Cell death in paclitaxel-dependent chinese hamster ovary cells is initiated by the loss of telomeric DNA repeats.

We have reported earlier that cell death in a metastatic murine melanoma cell line induced by paclitaxel and its water-soluble conjugates is mediated through the extensive erosion of telomeric repeats. The purpose of this study was to investigate if loss of telomeric repeats was also involved in cell death of Tax-18 and Tax-2-4, two paclitaxel-requiring mutant Chinese hamster ovary (CHO) cell lines. Tax-18 and Tax-2-4 cells were grown in paclitaxel-free culture medium for 24, 48, 72, and 96 h at 37 degrees C and then harvested for cytological preparations. Control cultures of both cell lines were grown in paclitaxel-supplemented medium and harvested simultaneously. We found that: 1) the frequency of telomeric associations in metaphase preparations was increased with the duration of paclitaxel-depleted culture; 2) Tax-18 cells showed a higher incidence (33.0%) of endoreduplicated metaphases at 24 h of paclitaxel-depleted culture than did Tax-2-4 cells, in which endoreduplicated metaphases were rare; 3) the frequency of polyploid cells was increased after 48, 72, and 96 h of paclitaxel-depleted culture for Tax-18 relative to that for Tax-2-4 cells; 4) both cell lines showed reductions in telomeric signals at chromosomal termini, but not in the interphase nuclei; and 5) both cell lines had shorter terminal telomeric restriction fragments after culture in paclitaxel-depleted medium. These results support our earlier observations and indicate that reduction of telomeric repeats is involved in G2/M cell arrest (endoreduplication) followed by severe DNA fragmentation, and then cell death of two CHO mutant cell lines that require paclitaxel for cell division.

Cell-killing by paclitaxel in a metastatic murine melanoma cell line is mediated by extensive telomere erosion with no decrease in telomerase activity.

The purpose of this study was to investigate and compare the effects of paclitaxel and its water-soluble conjugates (sodium-pentetic acid-paclitaxel; polyethylene glycol-paclitaxel, and poly[L-glutamic acid]-paclitaxel) on chromosome morphology and induction of apoptosis in a metastatic murine melanoma cell line (K1735 clone X-21). For this, murine melanoma cells were treated continuously for 72 h with three concentrations (1.2 microM, 2.4 microM, and 4.8 microM) of each of paclitaxel, and conjugates. Another set of cells were pulse-treated at 2.4 microM, 4.8 microM and 9.6 microM concentrations of each of these drugs for 4 h and the recovered cells were examined after 72 h. Control cultures received only the solvents (dimethyl sulfoxide or water). Our results showed a significant increase in the frequencies of telomeric associations, chromosome aberrations, polyploidization, distorted and disintegrated chromosome morphology, and reduced telomeric signal intensity by fluorescence in situ hybridization, in treated cultures as compared to the controls. However, we detected no change in telomerase activity. In addition, the majority of interphase nuclei in treated cells showed apoptotic bodies, with chromatin condensation. These in vitro results suggest that cell death induced by paclitaxel and its water-soluble conjugates is due to the loss of telomeric repeats, as shown by reduced signal flourescence and increased telomeric associations.