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Target Concepts:
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Query: UNIPROT:P43146 (
tumour suppressor
)
5,935
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The expression of 6 different oncoproteins and 2
tumour suppressor
gene products in the plasma cells of 63 bone marrow samples was used to determine a profile of the oncogenic phenotype of patients with multiple myeloma. Dual label flow cytometry after periodatelysine paraformaldehyde fixation was used to detect cell surface phenotype and intracellular protein expression simultaneously. The normal range for both the incidence and intensity of expression was determined for each protein by analysing plasma cells (high CD38 intensity) in 22 normal bone marrow samples. The percentage of myeloma patients with a greater than normal incidence of plasma cells expressing these proteins was 53% for c-myc, 28% for Rb, 28% for bcl-2, 27% for c-fos, 24% for p53 wild, 22% for p53 mutant, 13% for c-neu and 13% for pan-ras. When a panel of 8 antibodies was used, 82% of the samples (n = 28) had an increased incidence of expression by at least one oncoprotein or
tumour suppressor
gene product. The 5 patients with a normal incidence of expression of all 8 proteins were in plateau stage and 4 had not received chemotherapy for more than 12 months. The number of patients with an increased incidence of expression by 2 or more oncoproteins was significantly greater (X2 = 9.0; p < 0.005) in progressive disease (55%) than in stable disease (14%) but there was no specific phenotype pattern associated with progressive disease. All 6 oncoproteins and both
tumour suppressor
gene products had a greater incidence and intensity of expression in progressive than in stable disease. The expression of c-myc oncoprotein correlated with c-myc mRNA expression in the same samples (n = 10) but c-myc did not correlate with either the plasma cell labelling index (r = -0.15) nor serum
thymidine kinase
(r = 0.10). Our results suggest that there is a heterogeneous, non-systematic but almost universal presence of activated oncogenes and
tumour suppressor
genes in the plasma cells of patients with multiple myeloma and that disease progression is associated with the accumulation of a variety of secondary genetic changes which confer increased malignant behaviour.
...
PMID:The oncoprotein phenotype of plasma cells from patients with multiple myeloma. 769 21
In multiple myeloma the duration of plateau is an important clinical and biological determinant of quality of life and survival. During plateau phase, the tumour is in an indolent state, as manifested by a low labelling index of plasma cells and other proliferative markers, e.g. the
thymidine kinase
level. The mechanism by which plasma cells escape from this indolent phase to a more aggressive phase of this disease is unknown, but a number of possible mechanisms have been postulated. These include loss of immunoregulation, clonal evolution, cytokine dysfunction and oncogene activation or
tumour suppressor
gene dysfunction. As current chemotherapy protocols do not appear to be able to eradicate the malignant clone, understanding the nature of the indolent phase of the malignant clone and the reasons for its escape from this phase are very important and may provide new options for disease control.
...
PMID:Mechanisms of the escape phase of myeloma. 820 6
Five human melanoma cell lines were investigated for their antioxidant activities. These metabolic data were correlated with cytogenetic analysis giving the relative numbers of chromosomes or chromosomal segments carrying the gene encoding for each enzyme. Particular attention was focused on the expression of superoxide dismutase 2 (SOD2), whose gene, located on the long arm of chromosome 6 (6q), has been proposed as a
tumour suppressor
gene. The activity of glutathione peroxidase (GPX), glutathione reductase (GSR) and catalase appeared to be unrelated to the relative number of 3q, 8p and 11p arms which, respectively, carry their encoding genes. GPX activity paralleled that of total SOD activity, and GSR variations followed those of GPX, suggesting possible metabolic regulation. Both the activity and the amount of SOD1 immunoreactive protein correlated with the number of chromosomes 21, suggesting a gene dosage effect. The three cell lines with deletions of the 6q arm had lower SOD2 activity and less immunoreactive protein than the two cell lines without 6q deletion. In addition, they demonstrated high
thymidine kinase
and thymidylate synthetase activities, which are directly linked to the cell proliferation rate. These results strengthen the hypothesis that SOD2 has a function as a
tumour suppressor
gene, but also suggest that the expression of other antioxidant enzymes might be altered in human melanomas.
...
PMID:Modifications of the antioxidant enzymes in relation to chromosome imbalances in human melanoma cell lines. 976 8
Malignant cells usually show altered gap junctional intercellular communication and are often associated with aberrant expression or localization of connexins. Transfection of connexin genes into tumorigenic cells restores normal cell growth, suggesting that connexins form a family of
tumour suppressor
genes. Some studies have also shown that specific connexins may be necessary to control growth of specific cell types. Although we have found that genes encoding connexin32 (Cx32; beta 1), Cx37 (alpha 4) and Cx43 (alpha 1) are rarely mutated in tumours, our recent studies suggest that methylation of the connexin gene promoter may be a mechanism by which connexin gene expression is down-regulated in certain tumors. We have produced various dominant negative mutants of the genes encoding Cx26 (beta 2), Cx32 and Cx43, some of which prevent the growth control exerted by the corresponding wild-type genes. A decade ago, we proposed a method to enhance killing of cancer cells by diffusion of therapeutic agents through gap junctions. Recently, we and others have shown that gap junctional intercellular communication is responsible for the bystander effect seen in herpes simplex virus
thymidine kinase
/ganciclovir gene therapy. Thus, connexin genes can exert dual effects in tumour control: tumour suppression and a bystander effect for cancer therapy.
...
PMID:Connexins in tumour suppression and cancer therapy. 1020 8
Normally, thyroid cancer is a disease with a good prognosis, but about 30% of the tumours dedifferentiate and may finally develop into highly malignant anaplastic thyroid carcinomas with a mean survival time of less than 8 months. Due to the loss of thyroid-specific functions associated with dedifferentiation, these tumours are inaccessible to standard therapeutic procedures such as radioiodide therapy and thyroxine-mediated thyrotrophin suppression. Medullary thyroid carcinomas are also highly aggressive. Here, therapy is limited to surgery, and no alternative is left if patients do not respond to this standard procedure. Obviously, new approaches would be desirable. Several novel approaches are currently being tested for the treatment of thyroid cancer. Many of them utilise methods of gene therapy, but follow different strategies: (1) reintroduction of the
tumour suppressor
p53 into a background lacking functional p53; (2) suicide gene therapy with ganciclovir and a transduced gene for herpes simplex virus
thymidine kinase
controlled by the thyroglobulin promoter; (3) strengthening of the antitumour immune response by expression of an adenovirus-delivered interleukin-2 (IL-2) gene; (4) induction of an immune response by DNA vaccination against the tumour marker calcitonin; (5) transduction of the thyroid sodium/iodide transporter gene to make tissues that do not accumulate iodide treatable by radioiodide therapy; (6) blocking of the expression of the oncogene c-myc by antisense oligonucleotides. While these approaches are still tested in vitro or in animal models, first results from pilot studies concerning other novel treatment modalities are available: (7) radioimmunotherapy exploits the carcinoembryonic antigen expressed on medullary thyroid carcinomas to target a radiolabelled antibody to the tumour; and (8) retinoic acid is used for a redifferentiation therapy in the case of thyroid cancer. Hopefully, one or the other of these novel strategies may probably extend after some time the current therapeutic repertoire for thyroid cancers and provide a perspective for otherwise untreatable patients.
...
PMID:Innovative strategies for the treatment of thyroid cancer. 1087 26
Novel treatment strategies such as gene therapy are warranted in view of the failure of current treatment approaches to cure a high percentage of patients with advanced bladder cancers. The emergence of cancer gene therapy potentially offers a number of exciting treatments. The majority of approaches involve strategies to suppress the function of activated oncogenes to restore the expression of functional
tumour suppressor
genes or to initiate tumour self-destruction. One gene therapy approach against tumours that holds great promise is suicide gene therapy. Herpes simplex virus
thymidine kinase
(HSV-TK) phosphorylates ganciclovir (GCV), which in turn interacts with cellular DNA polymerase and interferes with DNA synthesis to cause death of rapidly dividing cells. The development of an effective delivery system is absolutely critical to the usefulness and safety of gene therapy. At present, the adeno-associated virus (AAV) vector has the most promising potential in view of its non-pathogenicity, wide tropisms and long-term transgene expression in vivo. Gene therapy studies using different serotypes of recombinant AAV (rAAV) as delivery vehicles have proved rAAVs to be an effective modality of cancer gene therapy. In the present study, we investigated the suppression effect of AAV-mediated HSV-TK/GCV system on the bladder cancer cells and in mice xenograft models of bladder cancer. Our data demonstrate that rAAV-HSV-TK system controlled tumour cell growth and achieves strong antitumour efficacy in vivo. These findings provide a foundation for the development of potential targeted clinical therapies for bladder cancer in humans.
...
PMID:The adeno-associated virus-mediated HSV-TK/GCV suicide system: a potential strategy for the treatment of bladder carcinoma. 2201 35
