UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.01 seconds)

The Grimelius silver nitrate stain has enabled us to demonstrate the presence of tumor cells with argyrophil granules (argyrophil cells) in small cell carcinoma of the lung. Of the 22 tumors, 11 showed varying numbers of argyrophil cells. The occurrence of the cells differed in frequency among the subtypes of small cell carcinoma. The fusiform cell type showed the cells more frequently than the other types. Both tumors with numerous argyrophil cells belonged to the fusiform cell type. The number of positive cells seen under the light microscope did not correlate with the number of cells containing neurosecretory granules under the electron microscope, nor with the amount of either ACTH or serotonin in the tumor extracts. The demonstration of these cells in a pulmonary carcinoma may be of help in making correct histological diagnosis.
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PMID:Demonstration of argyrophil granules in small cell carcinoma of the lung. 20 93

The steroidogenic responsiveness of mouse adrenal tumor cell line (Y-1) to ACTH and db cAMP declines after stimulations by these compounds. The desensitization induced by ACTH appears early and is more pronounced than that induced by db cAMP. After removal of the hormone or the nucleotide, the recovery of cell responsiveness to both stimuli isprogressively restored. Full responsiveness is recovered within 24 hrs.
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PMID:[Desensitization of adrenal tumor cells Y1 by ACTH and dibutyryl cyclic AMP]. 20 70

The cytochalasins stimulate steroid secretion of Y-1 adrenal tumor cells two-to threefold. The order of potencies is cytochalasin E is greater than D is greater than B, but the maximum response is the the same and always less than with ACTH. Like that with ACTH, the stimulation has a rapid onset, is easily reversible, is inhibited by cucloheximide and aminoglutethimide, and occurs at a stage before pregnenolone. Although the cytochalasin, like ACTH, produce cell rounding, it is shown that this morphological change is not necessarily coupled to steridogenesis. Unlike ACTH, cytochalasin B does not measurably increase cellular levels of cAMP at concentrations that lead to maximal steroidogenesis. The cytochalasin B-induced stimulation of steroidogenesis, unlike the short-term ACTH effect, fails to occur in the absence of serum. This lack of response can be corrected by even low concentrations of human high density lipoproteins (HDL) but not by low density lipoproteins (LDL). We, therefore, propose that cytochalasin B enhances the availability of cholesterol bound to HDL for steroidogenesis by Y-1 adrenal cells.
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PMID:Cytochalasin-stimulated steroidogenesis from high density lipoproteins. 20 63

Our results demonstrate that adrenocorticotropin (ACTH)-induced refractoriness occurs in cultured adrenal tumor cells. Cells became 85% refractory to ACTH-induced cyclic AMP formation in 20 min and the effect persisted if the hormone remained in the incubation medium. Refractory cells gradually regained hormone-specific responsiveness within 24 h if cultures were incubated in fresh media containing serum. The observed effect is hormone specific since cyclic AMP could not induce unresponsiveness to ACTH. The addition of ACTH plus inhibitors of protein synthesis partially reversed hormone-specific refractoriness. However, preincubation with cycloheximide or diphtheria toxin led to superinduction of ACTH-induced cyclic AMP formation. These experiments suggest that unresponsiveness, following hormonal activation of adrenal cells, may be related to a decrease in hormone-specific binding sites or to synthesis of an adenylate cyclase inhibitor.
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PMID:Adrenocorticotropin-induced unresponsiveness in cultured adrenal tumor cells. 20 44

The initial steps in the processing of the common precursor to adrenocorticotropin (ACTH) and endorphin in mouse pituitary tumor cells (AtT-20) have been investigated. Three forms of the precursor have been resolved by sodium dodecyl sulfate (NaDodSO4)-polyacrylamide gel electrophoresis with apparent molecular weights of 29 000 (29K ACTH-endorphin), 32 000 (32K ACTH-endorphin) and 34 000 (34K ACTH-endorphin). These forms have a similar peptide backbone, but their carbohydrate content differs. In particular, a tryptic glycopeptide has been observed in 32K ACTH-endorphin which is not present in 29K ACTH-endorphin and has been identified as the tryptic peptide containing the alpha(22--39) sequence of ACTH. Similar heterogeneity in carbohydrate has been observed in some of the smaller molecular weight forms of ACTH which are resolved by NaDodSO4 gel electrophoresis. Pulse chase and continuous labeling studies using radioactive amino acids and sugars suggest that the 29K ACTH-endorphin is converted to 32K and 34K ACTH-endorphin by the addition of carbohydrate. The glycopeptide and pulse chase studies suggest that 29K ACTH-endorphin is at a branch point in the processing pathways. It can either be converted to 4.5K ACTH by proteolytic processing or to 32K ACTH-endorphin by the further addition of carbohydrate. The 32K ACTH-endorphin can then be converted to 13K ACTH, the glycosylated form of 4.5K ACTH (Eipper, B.A., & Mains,, R.E. (1977) J.Biol. Chem.252, 882), by proteolytic processing. A comparison of the distribution of the different molecular weight forms of ACTH and endorphin in mouse pituitary extracts and in the mouse pituitary tumor cells reveals that the pituitary contains all of the forms of ACTH and endorphin seen in the tumor cells, including the three forms of the ACTH-endorphin precursor. However, the molecular weight distribution of the forms in the anterior lobe is very different from that in the intermediate lobe of mouse pituitary.
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PMID:Steps involved in the processing of common precursor forms of adrenocorticotropin and endorphin in cultures of mouse pituitary cells. 21 Jul 98

The case of a 14-year-old girl with hirsutism and virilism due to the secretion of ectopic ACTH by an adrenal medullary tumor is described. At the age of 5 years changes in appearance had begun with masculinization. The effect of ACTH-like material, measured by radioimmunoassay in plasma and in tumor tissue, was compensated partially by the hypothalamo-pituitary-adrenal feedback mechanism. Increased concentrations of dehydroepiandrosterone, estrone and testosterone in plasma and of 17-ketosteroids and free cortisol in urine originated in the adrenals. After operation of the tumor menarche began spontaneously, hirsutism disappeared and testosterone plasma concentrations returned to normal. An adrenogenital syndrome was excluded.
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PMID:[Virilism due to an adrenal medullary tumor with ectopic ACTH syndrome (author's transl)]. 21 12

Cells derived from a transplantable mouse adrenal cortical tumor maintain their differentiated function in vitro and secrete steroids in response to ACTH and other stimulatory agents. The cell line has been widely employed for various biochemical investigations but there have been few attempts to correlate this work with morphologic data. This communication describes the electron microscopic appearance of the tumor transplant in vivo and primary cultures derived from it at various intervals after the cells are placed in culture. Tumor cells in vivo bear considerable resemblance to normal adult mouse adrenal cortical cells. Organelles generally considered to be directly involved in steroid biosynthesis (mitochondria, smooth endoplasmic reticulum and lipid droplets) are not drastically altered. Certain modifications of the vasculature and cell membrane, seemingly related to steroidogenesis, are present in both the tumor and normal adrenal cortex. Within 2 days after the tumor cells are introduced to culture, their cytoplasm assumes a more simplified appearance. Smooth endoplasmic reticulum is less conspicuous and free ribosomes and polysomes are very abundant. Mitchondrial inner membranes are reorganized from a saccular arrangement in the cells in vivo into distinct lamellar cristae. The tumor cells now resemble undifferentiated embryonic adrenal cells, or cultured adrenal cells from various mammalian sources which have dedifferentiated in the absence of ACTH. In their morphologically unspecialized state, the normal cells are incapable of functional responses to ACTH. In contrast, the cultured, dedifferentiated tumor cells respond within minutes to this hormone and can demonstrate 5-20 fold increases in their basal steroid output. These data suggest that substantial steroidogenic activity can occur although the characteristic appearance of adrenal mitochondria is absent.
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PMID:The ultrastructure of functional mouse adrenal cortical tumor cells in vitro. 21 37

A transplantable ACTH-secreting pituitary tumor (AtT-20) in mice was studied for its growth in relation to adrenocortical steroid. The latency of transplanted tumor in LAF-1 mice with 10(6) tumor cells was about 2 weeks in adrenalectomized and in intact mice. In the former, however, tumor size reached 1.5 cm in diameter within 1 month, while it remained about 0.5 cm in the latter. Macroscopic and microscopic observation revealed that the tumor grafted in intact mice showed massive necrosis, leaving minimum intact tumor cells among necrotic foci. In contrast, the tumor grafted in adrenalectomized mice was healthy, soft, and showed adenomatous structure. It is concluded that excess of adrenocortical steroid produced in the grafted AtT-20 was inhibitory for the growth of transplanted tumor and removal of the adrenal glands was good for growth and survival of transplanted tumor. For the assessment of direct effect of adrenal steroid on AtT-20 cells, incorporation of 3H-thymidine in cultured AtT-20 cells was examined in a medium supplemented with glucocorticoid hormone. The autoradiographic study indicated that the inhibition of 3H-thymidine uptake was demonstrated at 24 hr after incubation with steroid and labeled cells were barely detectable on 3rd and 5th day.
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PMID:Cellular injury of adrenocorticotropic pituitary tumor (AtT-20) by corticosteroid in mice. 21 36

The role of the cyclic AMP-protein kinase system in mediating the steroidogenic effect of ACTH, prostaglandin E1 and dibutyryl cyclic AMP, induced similar stimulations of protein kinase activity, cyclic AMP was studied using human adrenal cells isolated from normal and adrenocortical secreting tumors. At high concentrations of ACTH, complete activation of protein kinase of normal adrenal cells was observed within 3 min, at the time when cyclic AMP production was slightly increased and there was still no stimulation of steroidogenesis. At supramaximal concentrations, ACTH, PGE1 and dibutyryl cyclic AMP and cortisol productions in adrenal cells isolated from normal and from one adrenocortical tumor. In one tumor in which the adenylate cyclase activity was insensitive to ACTH, the hormone was unable to stimulate protein kinase or steroidogenesis, but the cells responded to both PGE1 and dibutyryl cyclic AMP. In another tumor in which the adenylate cyclase was insensitive to PGE1, this compound also did not increase protein kinase activity or steroidogenesis, but both parameters were stimulated by ACTH and dibutyryl cyclic AMP. After incubation of normal adrenal cells with increasing concentrations of ACTH (0.01-100 nM) marked differences were found between cyclic AMP formation and cortisol production. However at the lowest concentrations of ACTH exerting an effect on steroid production a close linked correlation was found between protein kinase activation and cortisol production, but half-maximal and maximal cortisol production occurs at lower concentration of ACTH than was necessary to induce the same stimulation of protein kinase. Similar findings were found after incubating the adrenal cells with dibutyryl cyclic AMP (0.01-10 mM). The results implicate an important role of the cyclic AMP-protein kinase system during activation of adrenal cell steroidogenesis by low concentrations of steroidogenic compounds.
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PMID:Role of cyclic AMP and protein kinase on the steroidogenic action of ACTH, prostaglandin E1 and dibutyryl cyclic AMP in normal adrenal cells and adrenal tumor cells from humans. 21 68

Y-1 adrenal tumor cells were incubated with aminoglutethimide with and without ACTH. Greater production of pregnenolone from endogenous cholesterol was observed (after washing to remove aminoglutethimide) in mitochondria from cells incubated with aminoglutethimide and ACTH than in those from cells incubated with aminoglutethimide alone. This response was inhibited by cycloheximide and puromycin but not by chloramphenicol or actinomycin D. ACTH increased the incorporation of [3H]tyrosine into protein associated with mitochondria but not into total cell protein or protein of postmitochondrial supernatant. This response did not require aminoglutethemide block and was inhibited by cycloheximide and puromycin but not by chloramphenicol or actinomycin D. Dibutyryl cyclic AMP produced both of these responses (increased production of pregnenolone and synthesis of protein associated with mitochondria). The concentration of cycloheximide required to cause 50% inhibition of the responses to ACTH and dibutyryl cyclic AMP was approximately the same for steroidogenesis by whole cells, for production of pregnenolone by isolated mitochondria, for incorporation of [3H]tyrosine into Y-1 cell protein and for the increase in synthesis of protein associated with mitochondria produced by ACTH (0.08--0.2 microgram/ml). Disc gel electrophoresis revealed that the increased incorporation of [3H]tyrosine involved two proteins corresponding to molecular weight of approximately 27,000 and 13,000 respectively. These observations suggest that ACTH promotes synthesis of protein(s) by cytoplasmic ribosomes on stable messenger RNA, that the protein(s) becomes associated with mitochondria and that the protein(s) includes one or more which are associated with the increase in production of pregnenolone produced in mitochondria by the addition of ACTH to adrenal cells.
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PMID:On the role of protein synthesis in the response of adrenal tumor cells to ACTH. 21 75

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