Hans Jörg Altermatt scite author profile

Genes of the polycomb group function by silencing homeotic selector genes that regulate embryogenesis. In mice, downregulation of one of the polycomb genes, bmi-1, leads to neurological alterations and severe proliferative defects in lymphoid cells, whilst bmi-1 overexpression, together with upregulation of myc-1, induces lymphoma. An oncogenic function has been further supported in primary fibroblast studies where bmi-1 overexpression induces immortalization due to repression of p16/p19ARF, and where together with H-ras, it readily transforms MEFs. It was the aim of this study to assess the expression of bmi-1 in resectable non-small cell lung cancer (NSCLC) in association with p16 and p14ARF (=human p19ARF). Tumours (48 resectable NSCLC (32 squamous, 9 adeno-, 2 large cell, 4 undifferentiated carcinomas and 1 carcinoid); stage I, 29, II, 7, III, 12; T1, 18, T2, 30; differentiation: G1 12, G2 19, G3 17) were studied by immunohistochemistry for protein expression and by comparative multiplex PCR for gene amplification analysis. In tumour-free, normal lung tissue from patients, weak – moderate bmi-1 staining was seen in some epithelial cells, lymphocytes, glandular cells and in fibroblasts, whereas blood, endothelial, chondrocytes, muscle cells and adipocytes did not exhibit any bmi-1 expression. In tumours, malignant cells were negative/weakly, moderately and strongly positive in 20, 22 and 6 cases, respectively. As assessed by multiplex PCR, bmi-1 gene amplification was not the reason for high-level bmi-1 expression. Tumours with moderate or strong bmi-1 expression were more likely to have low levels of p16 and p14ARF ( P = 0.02). Similarly, tumours negative for both, p16 and p14ARF, exhibit moderate–strong bmi-1 staining. 58% of resectable NSCLC exhibit moderate–high levels of bmi-1 protein. The inverse correlation of bmi-1 and the INK4 locus proteins expression (p16/p14ARF) supports a possible role for bmi-1 misregulation in lung carcinogenesis. © 2001 Cancer Research Campaign www.bjcancer.com

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Glucocorticoid and progesterone inhibit involution and programmed cell death in the mouse mammary gland.

Feng

et al. 1995

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Abstract. Milk production during lactation is a consequence of the suckling stimulus and the presence of glucocorticoids, prolactin, and insulin. After weaning the glucocorticoid hormone level drops, secretory mammary epithelial cells die by programmed cell death and the gland is prepared for a new pregnancy. We studied the role of steroid hormones and prolactin on the mammary gland structure, milk protein synthesis, and on programmed cell death. Slow-release plastic pellets containing individual hormones were implanted into a single mammary gland at lactation. At the same time the pups were removed and the consequences of the release of hormones were investigated histologically and biochemically. We found a local inhibition of involution in the vicinity of deoxycorticosterone-and progesterone-release pellets while prolactin-release pellets were ineffective. Dexamethasone, a very stable and potent glucocorticoid hormone analogue, inhibited involution and programmed cell death in all the mammary glands. It led to an accumulation of milk in the glands and was accompanied by an induction of protein kinase A, AP-1 DNA binding activity and elevated c-los, ]unB, and junD mRNA levels. Several potential target genes of AP-1 such as stromelysin-1, c-]un, and SGP-2 that are induced during normal involution were strongly inhibited in dexamethasone-treated animals. Our results suggest that the cross-talk between steroid hormone receptors and AP-1 previously described in cells in culture leads to an impairment of AP-1 activity and to an inhibition of involution in the mammary gland implying that programmed cell death in the postlactational mammary gland depends on functional AP-1.

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Histology of Periapical Lesions Obtained During Apical Surgery

Schulz

Arx

Altermatt³

et al. 2009

Journal of Endodontics

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Hypoxia-inducible factor 1 alpha in high-risk breast cancer: an independent prognostic parameter?

et al. 2004

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Intratumoral hypoxia has been shown to be a prognostic parameter in diverse studies [1]. Electrode measurements of oxygen tension have thus far served as the gold standard for its determination. The disadvantage of this method is its inability to discriminate between different cell types and areas of different cell viability [2].Hypoxia-inducible factor 1 is a heterodimeric DNA-binding complex, of which the β subunit is responsible for its translocation into the nucleus and the α subunit for its oxygen sensitivity. Under normoxic conditions the hypoxia-inducible factor 1 alpha (hif-1α) protein is degraded within minutes, whereas under hypoxic conditions it is stabilized and upregulated [3]. hif-1α is a transcription factor for target genes, involved in cell adaptation to stress parameters such as hypoxia. These genes are involved mainly in the modulation of erythropoesis, angiogenesis and metabolism.A spatial coexpression of hif-1α and the nitroimidazole EF5, the levels of which are selectively lowered only in viable hypoxic cells, was recently reported [4]. Further-DFS = disease-free survival; DMFS = distant metastasis-free survival; 5-FU = 5-fluorouracil; hif-1α = hypoxia-inducible factor 1 alpha; OS = overall survival. AbstractBackground: Hypoxia-inducible factor 1 alpha (hif-1α) furnishes tumor cells with the means of adapting to stress parameters like tumor hypoxia and promotes critical steps in tumor progression and aggressiveness. We investigated the role of hif-1α expression in patients with node-positive breast cancer.

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Adjuvant letrozole versus tamoxifen according to centrally-assessed ERBB2 status for postmenopausal women with endocrine-responsive early breast cancer: supplementary results from the BIG 1-98 randomised trial

Rasmussen

Regan

Lykkesfeldt

et al. 2008

The Lancet Oncology

142

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Breast cancer and human papillomavirus (HPV) infection: No evidence of a viral etiology in a group of Swiss women

Lindel

Förster

Altermatt³

et al. 2007

The Breast

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Oligodendrogliomas: Reproducibility and Prognostic Value of Histologic Diagnosis and Grading

Giannini

Scheithauer

Weaver

et al. 2001

J Neuropathol Exp Neurol

182

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Prognostic value of histological grading of oligodendroglial tumors is controversial and interobserver reproducibility in grading of these tumors is unknown. Seven neuropathologists and 6 surgical pathologists experienced in brain tumor-diagnosis assessed 124 oligodendroglial tumors operated at the Mayo Clinic (1960-1990). Among histologic parameters upon which current oligodendroglioma grading systems are based, only high cellularity, presence of mitoses, microcalcifications, endothelial hypertrophy, endothelial proliferation, and necrosis appeared to be reproducible. Reproducible histologic features, based on consensus ratings among neuropathologists (defined as > 60%), were evaluated for the association with cause-specific survival by fitting Cox regression models. By univariate analysis, a significant association with survival was found for age, high cellularity, presence of mitoses, endothelial hypertrophy and proliferation and necrosis. On multivariable analysis with a stepwise variable selection method, only age and presence of endothelial proliferation were found to be independently associated with survival with a discriminatory index of the model of 0.68. Mitotic index was significantly associated with survival based on the grading from each separate neuropathologist, but it was not based on consensus, most likely because this was classified as indeterminate in 54% of cases. Alternatively, "models fit" considering the assessment of single neuropathologists, identified a model based on age and on mitotic index with similar discriminatory indices of 0.69-0.7. Our study found few factors independently associated with cause specific-survival among morphological parameters. These findings are consistent with the present WHO stratification of oligodendrogliomas into low- and high-grade variants.

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Expression of p16INK4a/p16α and p19ARF/p16β is frequently altered in non-small cell lung cancer and correlates with p53 overexpression

et al. 1998

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The CDKN2 locus expresses two di erent mRNA transcripts, designated a and b. The protein product of the a transcript is the cell cycle inhibitor and tumour suppressor p16INK4a. The b transcript is translated in an alternate reading frame (ARF) and in humans encodes a 15 kDa protein (p19ARF). Immunohistochemical and Western analysis of p16INK4a has shown that the protein is downregulated in a signi®cant number of tumours, but less is known on the expression of the p19ARF. We have examined the expression of p16INK4a and p19ARF in resectable non-small cell lung cancer (NSCLC) by immunostaining (n=49) and multiplex RT ± PCR (n=28). In order to investigate the mechanism responsible for p16INK4a downregulation, exon 1a methylation was analysed in a PCR-based assay. Of 49 tumours examined by immunostaining, 24 and 20 tumours expressed p16INK4a and p19ARF at nil to low levels, respectively. p19ARF was localized primarily to the nuclei of tumour cells, but was also seen to varying degrees in nuclei of lymphocytes, chondrocytes, ®broblasts, and epithelial cells. No tumour with normal p16INK4a had decreased p19ARF expression. Among 16 tumours with nil to low p16INK4a expression, 11 tumours exhibited full methylation of at least one site within exon 1a and these tumours showed normal p19ARF expression. In contrast, no methylation of exon 1a was observed in ®ve tumours which also lacked p19ARF. In normal lung, p16INK4a and p19ARF were not expressed at detectable levels, the multiplex RT ± PCR results were balanced, and sites within exon 1a were strongly methylated. In tumours, imbalanced multiplex RT ± PCR data (p16INK4a5p19ARF) predicted methylation of exon 1a (P=0.0006) as well as downregulation of p16INK4a. p19ARF downregulation was inversely correlated with p53 overexpression (P=0.025), whilst negative immunostaining for p16INK4a was inversely correlated with pRb downregulation (P=0.003) and directly correlated with p53 overexpression as assessed by immunostaining (P=0.015). Our results show that: (1) p16INK4a and p19ARF expression are altered in almost half of resectable NSCLC; (2) methylation within exon 1a is a frequent, but not the only mechanism of p16INK4a downregulation; and that (3) the inverse association of p19ARF and p53 alteration is consistent with a linked pathway.

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