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Query: UMLS:C0017636 (
glioblastoma
)
18,345
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have applied restriction fragment length polymorphism analysis to a 30-member panel of primary glioma DNAs, which had been previously examined for loss of genetic information (C. D. James, E. Carlbom, J. P. Dumanski, M.
Hansen
, M. Nordenskjold, V. P. Collins, and W. K. Cavenee, Cancer Res., 48:5546-5551, 1988), to determine the frequency and sublocalization of loss of genetic information from chromosome 9. We have also utilized scanning densitometry for dosage determination of the 9p-localized interferon alpha and interferon beta-1 genes among these same tumors. Our results reveal the following: (a) for those cases in which loss has occurred, the region of common loss lies on the short (p) arm of the chromosome; (b) loss of genetic information from the short arm of chromosome 9 occurs frequently in glial tumors of intermediate (anaplastic, grade III) and high (
glioblastoma
, grade IV) histological malignancy (10 of 20 cases) but not in tumors of low (grade II) histological malignancy (0 of 10 cases); (c) tumors with 9p deletions are hemi- or nullizygous for interferon beta-1 and the interferon alpha gene cluster; (d) cases of interferon nullizygosity occur exclusively among tumors of highest histological malignancy (
glioblastoma
). These data, especially the determination of a region of nullizygosity, suggest proximity to or residence within a gene(s) whose function(s) is (are) critical to the suppression of the malignant evolution of glial tumors.
...
PMID:Chromosome 9 deletion mapping reveals interferon alpha and interferon beta-1 gene deletions in human glial tumors. 199 58
Comparison of constitutional and tumor genotypes at chromosomal loci defined by restriction fragment length alleles has proven useful in determining the genomic position and tissue specificity of recessive mutations that predispose to cancer (
Hansen
, M.F., and Cavenee, W.K. Cancer Res., 47:5518-5527, 1987). Here we have applied this approach to 53 unrelated patients with glial tumors of varying histological malignancy grade. Loss of constitutional heterozygosity for loci on chromosome 10 was observed in 28 of 29 tumors histologically classified as
glioblastoma
(malignancy grade IV) whereas no similar losses were observed in any of 22 gliomas of lower malignancy grade. Examination of restriction fragment length alleles on other chromosomes revealed that loss of sequences on chromosomes 13, 17, or 22 had occurred at nonrandom frequencies and in at least one instance of each malignancy grade of adult glioma. The tumors in which loss of constitutional heterozygosity was observed were composed of one or a mixture of glial cell subtypes displaying astrocytic, oligodendrocytic, and/or ependymal differentiation. These results demonstrate a close association of the loss of chromosome 10 sequences with the most malignant histological stage of glioma and that
glioblastoma
arises as the clonal expansion of an earlier staged precursor. Furthermore they suggest that
glioblastoma
is a common phenotypic and malignancy terminus for glial tumors of various cellular subtypes which is reached through a common molecular pathway. This approach which involves the identification of malignancy stage specific somatic losses of heterozygosity provides a genotypic, rather than phenotypic, analysis of tumor progression.
...
PMID:Clonal genomic alterations in glioma malignancy stages. 290 Dec 88
Recombinant interferon-gamma (IFN-gamma) is a potent immune regulatory cytokine and is involved in the defense against several intracellular organisms, such as Chlamydia and Toxoplasma. Furthermore IFN-gamma is able to inhibit the growth of human tumor cell lines. The ability to inhibit the growth of intracellular organisms makes the therapeutic use of recombinant human IFN-gamma in certain patient groups, such as those with chronic granulomatous disease,
leprosy
, and HIV infection, very attractive. We have shown recently that IFN-gamma-mediated effects can be blocked by heparin and that this inhibitory effect can be abrogated by the addition of protamine. In this report, we show that the antagonistic effect of protamine on heparin-mediated inhibition of IFN-gamma activity is mainly due to the capacity of protamine to enhance IFN-gamma activity. We found that protamine enhances the capacity of IFN-gamma to inhibit the growth of different brain tumor cell lines, to induce indolamine 2, 3-dioxygenase activity, to induce toxoplasmostasis, and to induce MHC class II antigen expression in human
glioblastoma
cells and in human native fibroblasts. We were able to demonstrate that IFN-gamma binds to protamine, and, therefore, we assume that the effect of protamine on IFN-gamma is due to a direct interaction between the two molecules.
...
PMID:Protamine enhances the activity of human recombinant interferon-gamma. 883 19
Data from past research is presented showing that neutrophils are active participants in new vessel formation in normal physiology, in proliferating human endometrium, in non-cancer pathologies as in the pannus of rheumatoid arthritis, and in various cancers, among them
glioblastoma
. These data show that interleukin-8 (IL-8) is a major chemokine attracting neutrophil infiltrates in these states. Since the old anti-
Hansen's disease
drug dapsone inhibits neutrophil migration along an IL-8 gradient towards increasing concentrations, and is used therapeutically for this attribute to good effect in dermatitis herpetiformis, bullous pemphigoid and rheumatoid arthritis, we suggest dapsone may deprive
glioblastoma
of neutrophil-mediated growth promoting effects. We review past research showing that vascular endothelial growth factor, VEGF, is carried predominantly intracellularly within neutrophils--only 2% of circulating VEGF is found free in serum. Based on the available evidence summarized by the authors, dapsone has a strong theoretical potential to become a useful anti-VEGF, anti-angiogenic agent in
glioblastoma
treatment.
...
PMID:The rationale of targeting neutrophils with dapsone during glioblastoma treatment. 2170 94
During
glioblastoma
treatment, the pharmaceutical monoclonal antibody to vascular endothelial growth factor A, bevacizumab, has improved the quality of life and delayed progression for several months, but has not (or only marginally) prolonged overall survival. In 2017, several dramatic research papers appeared that are crucial to our understanding of
glioblastoma
vis-a-vis the mode of action of bevacizumab. As a consequence of these papers, a new, potentially more effective treatment protocol can be built around bevacizumab. This is the ADZT regimen, where four old drugs are added to bevacizumab. These four drugs are apremilast, marketed to treat psoriasis, dapsone, marketed to treat
Hansen's disease
, zonisamide, marketed to treat seizures, and telmisartan, marketed to treat hypertension. The ancillary attributes of each of these drugs have been shown to augment bevacizumab. This paper details the research data supporting this contention. Phase three testing of AZDT addition to bevacizumab is required to establish safety and effectiveness before general use.
...
PMID:Paths for Improving Bevacizumab Available in 2018: The ADZT Regimen for Better Glioblastoma Treatment. 3027 95
Multiple pharmacological interventions tested over the last decades have failed to reduce ARDS mortality. This short note recounts past data indicating that (i) neutrophils home along an IL-8 gradient, (ii) in ARDS, massive neutrophil accumulation and degranulation in and along bronchoalveolar spaces contributes to damage and hypoxia, (iii) large increases in IL-8 are one of the chemotaxic signals drawing neutrophils to the ARDS lung, and (iv) old data from dermatology and
glioblastoma
research showed that the old drug against
Hansen's disease
, dapsone, inhibits neutrophils' chemotaxis to IL-8. Therefore dapsone might lower neutrophils' contributions to ARDS lung pathology. Dapsone can create methemoglobinemia that although rarely problematic it would be particularly undesirable in ARDS. The common antacid drug cimetidine lowers risk of dapsone related methemoglobinemia and should be given concomitantly.
...
PMID:Dapsone as treatment adjunct in ARDS. 3228 85
