DNA Methyltransferase1 post-transcriptional silencing induces aneuploidy and cell cycle arrest in human cells.

The regulation of chromatin structure is a dynamic and complex process that is modulated by epigenetic mechanisms. Malfunctioning of these processes can cause gene expression alteration and could compromise important events such as chromosome condensation and segregation. Imbalance in cytosine methylation and deregulation of DNA-methyltransferases (DNMTs), and of DNMT1 in particular, is frequent in human cancers. To investigate DNMT1 implication in the generation of aneuploidy we evaluated the effects of its depletion by RNA-interference both in primary human cells (IMR90) and in near diploid human tumor (HCT116) cells. Posttranscriptional silencing of DNMT1 induced aneuploidy, cell prolife…

MAD2 depletion triggers premature cellular senescence in human primary fibroblasts by activating a P53 pathway preventing aneuploid cells propagation.

The spindle assembly checkpoint (SAC) is a cellular surveillance mechanism that ensures faithful chromosome segregation during mitosis and its failure can result in aneuploidy. Previously, it was suggested that reduction of the MAD2 gene, encoding a major component of the SAC, induced aneuploidy in human tumor cells. However, tumor cell lines contain multiple mutations that might affect or exacerbate the cellular response to Mad2 depletion. Thus, the scenario resulting by Mad2 depletion in primary human cells could be different and more complex that the one depicted so far. We used primary human fibroblasts (IMR90) and epithelial breast cells (MCF10A) to gain further insight on the effects …

Chromosomal instability promoted by RB depletion relied neither on p53 nor SAC dysfunction in HCT116 tumor cells

RNAi mediated acute depletion of Retinoblastoma protein (pRb) promotes aneuploidy in human primary cells via micronuclei formation

BACKGROUND: Changes in chromosome number or structure as well as supernumerary centrosomes and multipolar mitoses are commonly observed in human tumors. Thus, centrosome amplification and mitotic checkpoint dysfunctions are believed possible causes of chromosomal instability. The Retinoblastoma tumor suppressor (RB) participates in the regulation of synchrony between DNA synthesis and centrosome duplication and it is involved in transcription regulation of some mitotic genes. Primary human fibroblasts were transfected transiently with short interfering RNA (siRNA) specific for human pRb to investigate the effects of pRb acute loss on chromosomal stability. RESULTS: Acutely pRb-depleted fibr…

Simultaneous Aurora-A/STK15 overexpression and centrosome amplification induce chromosomal instability in tumour cells with a MIN phenotype

Abstract Background Genetic instability is a hallmark of tumours and preneoplastic lesions. The predominant form of genome instability in human cancer is chromosome instability (CIN). CIN is characterized by chromosomal aberrations, gains or losses of whole chromosomes (aneuploidy), and it is often associated with centrosome amplification. Centrosomes control cell division by forming a bipolar mitotic spindle and play an essential role in the maintenance of chromosomal stability. However, whether centrosome amplification could directly cause aneuploidy is not fully established. Also, alterations in genes required for mitotic progression could be involved in CIN. A major candidate is represe…

RNA interference of MAD2 and BUBR1 genes causes mitotic spindle alterations, aneuploidy and cell cycle arrest p53-dependent.

The Spindle Assembly Checkpoint (SAC) is a cellular surveillance mechanism that functions to ensure faithful chromosome segregation during mitosis. Failure of this checkpoint or alteration in expression of SAC proteins (MAD2, BUB1, BUBR1 and others) can result in aneuploidy, a state of having abnormal numbers of chromosomes. MAD2 haploinsufficiency resulted in aneuploidy in MEFs and colon cancer cells in culture. Thus, spindle checkpoint components might have additional functions not-checkpoint-related functions that when disrupted contribute to tumorigenesis. Here we investigated the effects of MAD2 or BUBR1 transcriptional silencing in HCT-116 cells. Transient reduction of MAD2 (40%) and …

Transient and stable depletion of RB induce different expression of genes involved in epigenetic modifications.

Transient silencing of MAD2 induces mitotic abnormalities and p21waf1 overexpression in primary human fibroblasts

Micronuclei generation and chromosomal instability after RB interferences in human fibroblasts

Expression of the kinetochore protein Hec1 during the cell cycle in normal and cancer cells and its regulation by the pRb pathway.

Highly Expressed in Cancer protein 1 (Hec1) is a subunit of the Ndc80 complex, a constituent of the mitotic kinetochore. HEC1 has been shown to be overexpressed in many cancers, suggesting that HEC1 upregulation is involved in the generation and/or maintenance of the tumour phenotype. However, the regulation of Hec1 expression in normal and tumour cells and the molecular alterations promoting accumulation of this protein in cancer cells are still unknown. Here we show that elevated Hec1 protein levels are characteristic of transformed cell lines of different origins and that kinetochore recruitment of this protein is also increased in cancer cell lines in comparison with normal human cells.…

pRb loss and chromosomal instability in human cells.

pRb loss and chromosomal instability in human cells. Recent studies suggest that Retinoblastoma tumor suppressor (RB) plays important roles in the prevention of chromosomal instability by regulating genes that control cell cycle progression and mitotic events. We investigated the effects of stable post-transcriptional silencing of RB in primary human fibroblasts (IMR90) and in near-diploid colon cancer cells (HCT116) focusing on chromosome missegregation mechanisms. Stable depletion of pRb was achieved by infection with the retroviral vector MSCV-LMP670 encoding a microRNA (miR670) targeting RB transcript. Cytogenetic, immunofluorescence microscopy and time-lapse video-microscopy analyses s…

Aneuploidy induced by MAD2 haploinsufficiency triggers premature senescence in human primary fibroblast

Low doses of Hydroxyurea induce centrosome amplification and aneuploidy in primary human fibroblasts in culture

Aurora-A Transcriptional Silencing and Vincristine Treatment Show a Synergistic Effect in Human Tumor Cells

Aurora-A is a centrosome-associated serine/threonine kinase that is overexpressed in multiple types of human tumors. Primarily, Aurora-A functions in centrosome maturation and mitotic spindle assembly. Overexpression of Aurora-A induces centrosome amplification and G 2 /M cell cycle progression. Recently, it was observed that overexpression of Aurora-A renders cells resistant to cisplatin (CDDP)-, etoposide-, and paclitaxel-induced apoptosis.Our results indicate that already in initial stages of cancer progression Aurora-A overexpression could have a major role in inducing supernumerary centrosomes and aneuploidy, as shown by immunohistochemistry on tissue sections from various stages of hu…

Bypass of cell cycle arrest induced by transient DNMT1 post-transcriptional silencing triggers aneuploidy in human cells

Abstract Background Aneuploidy has been acknowledged as a major source of genomic instability in cancer, and it is often considered the result of chromosome segregation errors including those caused by defects in genes controlling the mitotic spindle assembly, centrosome duplication and cell-cycle checkpoints. Aneuploidy and chromosomal instability has been also correlated with epigenetic alteration, however the molecular basis of this correlation is poorly understood. Results To address the functional connection existing between epigenetic changes and aneuploidy, we used RNA-interference to silence the DNMT1 gene, encoding for a highly conserved member of the DNA methyl-transferases. DNMT1…

CENPA overexpression promotes genome instability in pRb-depleted human cells

Abstract Background Aneuploidy is a hallmark of most human cancers that arises as a consequence of chromosomal instability and it is frequently associated with centrosome amplification. Functional inactivation of the Retinoblastoma protein (pRb) has been indicated as a cause promoting chromosomal instability as well centrosome amplification. However, the underlying molecular mechanism still remains to be clarified. Results Here we show that pRb depletion both in wild type and p53 knockout HCT116 cells was associated with the presence of multipolar spindles, anaphase bridges, lagging chromosomes and micronuclei harbouring whole chromosomes. In addition aneuploidy caused by pRb acute loss was…

DNMT1 transient silencing induces aneuploidy, premature separated chromatids and centromeric chromatin alterations

“DNA Methyl transferase 1 post-trascriptional silencing indues aneuploidy and cell cycle arrest in human cells”,