The presence of the p53 transcripts with truncated open reading frames in Marek's disease tumor-derived cell lines

Detection of p53 mutation and serum monitoring alert caused by Marek's disease virus in poultry

Background

Marek’s disease (MD) is a chicken neoplastic disease, which brings huge economic losses to the global poultry industry. The wild type p53, a tumor suppressor gene, plays a key role in blocking cell cycle, promoting apoptosis, and maintaining the stability of the genome. However, the mutant p53 losses its tumor inhibitory role and become an oncogene when a mutation has happened.

Results

The mutation rate of p53 was 60% in the experimentally and naturally infected chickens. The mutations included point-mutations and deletions, and mostly located in the DNA-binding domain. The mutated p53 was expressed in various tumor tissues in an infected chicken. The mutant P53 proteins were notably accumulated in the cytoplasm due to the loss in the function of nuclear localization. Unlike the study on human cancer, the concentrations of P53 in the serums of MD infected chicken were significantly lower than the control group.

Conclusions

The p53 mutations were apparent in the development of MD. P53 and P53 antibody level in serum could be a useful marker in the diagnosis and surveillance of MD.

Investigação do gene p53 de frangos expostos às aflatoxinas

Identificou-se o efeito das aflatoxinas (AFs) sobre o gene p53 de frangos de corte, de linhagem comercial, separados em: grupo experimental, tratado (GT) com ração comercial contendo 2,8ppm de AFs totais durante 21 dias consecutivos, e grupo-controle (GC), sem exposição às AFs. Macroscopicamente, as alterações caracterizaram-se por hepatomegalia e aspecto pálido-amarelado com alguns focos hemorrágicos e, histologicamente, por desarranjo trabecular, pleomorfismo hepatocítico com cariomegalia, degeneração vacuolar intracitoplasmática, necrose com infiltração linfocítica e hiperplasia de ductos biliares. A PCR com os primers GSPT53c-1 com base no gene candidato a p53 (GenBank XM_424937.2) gerou um produto de aproximadamente 350 pares de base. O amplicon sequenciado a partir do DNA dos frangos do GT não apresentou mutação ou deleção, assim como padrão de bandas do PCR-RFLP não foi distinto entre ambos os grupos experimentais e a sequência depositada no banco de genes. Os resultados sugerem que não ocorreu transversão devido à exposição às AFs no fragmento amplificado. Conclui-se que a PCR-RFLP e o sequenciamento do produto da PCR não são ferramentas apropriadas para diagnóstico da exposição de frangos às AFs nas condições experimentais empregadas.

Splicing of mouse p53 pre-mRNA does not always follow the "first come, first served" principle and may be influenced by cisplatin treatment and serum starvation

Transcription of a pre-mRNA in eukaryotic cells elongates from the 5' to the 3' end, but intron removal during a pre-mRNA splicing does not always proceed in this orientation. In this study, we identified eight mouse p53 transcripts that retained one or more of introns 6, 7 and 8. The 5' part of intron 9 was also retained while the 3' part was not studied. These intron-containing transcripts, abbreviated as p53-ICTs, were detected at low abundance in many mouse embryonic fibroblasts (MEF) as well as cancer cell lines and tissues, and the highest ratio of these p53-ICTs to the mature p53 mRNA was seen in the normal pancreas. Serum starvation decreased those p53-ICTs that retained introns 6 and 7 but increased the levels of those lacking these introns while the level of the mature p53 mRNA was unaffected. Treatment of several cancer cell lines with cisplatin increased the mature p53 mRNA level but decreased these p53-ICTs. Transfection of p53(-/-) MEF with the p53 cDNA or several p53-ICT mini-genes slightly increased the cell viability and rendered the cells resistant to cisplatin. These data also suggest that p53 pre-mRNA splicing may have multiple orders of intron removal, some of which may not follow the "first come, first served" principle. It remains possible that these p53-ICTs are splicing intermediates existing as a mechanism for the cell to respond more promptly to a demand for more p53 and that p53 protein may be required for a normal life of MEF.

MicroRNAs 221 and 222 target p27Kip1 in Marek's disease virus-transformed tumour cell line MSB-1

MicroRNAs (miRNAs) are a class of short RNAs that function as post-transcriptional suppressors of protein expression and are involved in a variety of biological processes, including oncogenesis. Several recent studies have implicated the involvement of miR-221 and miR-222 in tumorigenesis as these miRNAs are upregulated in a number of cancers and affect the expression of cell cycle regulatory proteins such as the cyclin-dependent kinase (cdk) inhibitor p27(Kip1). Marek's disease virus (MDV) is a highly oncogenic herpesvirus that affects poultry, causing acute neoplastic disease with lymphomatous lesions in several organs. MDV-encoded oncogenes such as Meq are directly implicated in the neoplastic transformation of T cells and have been well studied. More recently, however, the involvement of both host and virus-encoded miRNAs in the induction of MD lymphomas is being increasingly recognized. We analysed the miRNA expression profiles in the MDV-transformed lymphoblastoid cell line MSB-1 and found that endogenous miRNAs miR-221 and miR-222 were significantly upregulated. Demonstration of the conserved binding sites for these miRNAs in the chicken p27(Kip1) 3'-untranslated region sequence and the repression of luciferase activity of reporter constructs indicated that miR-221 and miR-222 target p27(Kip1) in these cells. We also found that overexpression of miR-221 and miR-222 decreased p27(Kip1) levels and that treatment with retrovirally expressed antagomiRs partially alleviated this suppression. These data show that an oncogenic herpesvirus, as in the case of many cancers, can exploit the miRNA machinery for suppressing cell cycle regulatory molecules such as p27(Kip1) in the induction and progression of T-cell lymphomas.

The presence of a short form of p53 in chicken lymphoblastoid cell lines during apoptosis

To examine the roles of a short form of p53 in the regulation of apoptosis in chicken lymphoblastoid tumor cell lines derived from Marek's disease (MD) and avian leukosis (AL), the expressions of the p53 proteins were analyzed in these cell lines in which apoptosis was chemically induced. In MSB1-O derived from MD, the expression of a 40 kDa protein of p53 was decreased and that of a 32 kDa protein, a short form of p53, was increased during apoptosis induced by actinomycin D. In 1104B1 derived from AL, the expressions of 42 and 32 kDa of p53 were increased during the apoptosis. The short form of p53 was undetectable in these cell lines when apoptosis was blocked by the pretreatment with endonuclease inhibitor, Zn2+, protease inhibitors, TPCK and TLCK, or caspase inhibitor, Z-VAD-FMK. In the transcriptional level, the expressions of bcl-2 and IAP were decreased in these cell lines during actinomycin D-induced apoptosis, but no change was detected in the expression level of p53. These results suggest that, in these chicken tumors, the short form of p53 could play a role in the initiation of apoptosis induced by the chemotherapeutic compound, and that the regulation of its expression may be important for the maintenance of transformation status.