UMLS:C0011570 - FACTA Search

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Some of the human prostatic cells in culture apparently produce oncornavirus-like particles. Bromodeoxyuridine does not enhance the production of these particles. On the contrary, this drug depresses such production. This depression is likely to be due to the cytotoxic effects of bromodeoxyuridine for these cells. These results can be interpreted to suggest that the human prostatic cells used in this study do not contain endogenous oncornavirus genetic information that is inducible. Purified human interferon inhibits the production of oncornavirus-like particles by these prostatic cells. It is also inhibits the rate of cellular DNA synthesis in these cells. These results are consistent with the notion that the inhibitory effects of interferon are mediated through its effect on cellular biosynthetic machinery.
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PMID:Effect of bromodeoxyuridine and interferon on cellular and viral functions in human prostatic cells. 8 35

5-Aza-2'-deoxycytidine is a highly effective cytostatic agent that preferentially affects the lymphatic system. Pretreatment of noninbred H mice with the drug markedly depressed the level of thymidine (dThd) incorporation into DNA in the spleen and also lowered the dThd and thymidylate kinase activities. Maximum effects were observed following administration of the analog in a single dose 24 hours before the mice were killed. Whereas cytidine and dThd did not reverse the inhibitory effect of 5-aza-2'-deoxycytidine, excessive doses of deoxycytidine partially reversed this inhibition. Similar to the depression of dThd incorporation, a depression in the incorporation of deoxycytidine and cytidine into spleen DNA was found after 24-hour pretreatment with 5-aza-2'-deoxycytidine. However, 7 days following 5-aza-2'-deoxycytidine treatment, the incorporation of dThd into DNA in the spleens of mice was significantly increased. [3H]5-aza-2'-deoxycytidine was rapidly incorporated into spleen DNA, whereas deoxycytidine interfered with the incorporation of [3H]5-aza-2'-deoxycytidine.
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PMID:Depression of DNA synthesis in mouse spleen after treatment with 5-aza-2'-deoxycytidine. 9 Jan 50

Nondividing human diploid fibroblasts maintained in medium containing 0.5% calf serum do not survive when exposed to low doses of UV (254 nm). The extent of killing is dose and strain dependent. DNA excision repair-proficient cells are more resistant than excision repair-deficient cells. Results of measurements of the effect of UV on RNA and protein synthesis in repair-proficient and -deficient (XP12BE) cells are reported. UV causes an immediate and equal depression of the RNA synthesis rate in both kinds of cells. A recovery to control rates was observed only at low (5 J/m2) doses in repair-deficient cells and at higher doses (20 J/m2) in repair-proficient cells. No recovery was observed at doses that cause substantial reductions in survival (greater than 5 J/m2 for XP12BE; greater than 40 J/m2 for repair-proficient populations). No initial effect on rate of protein synthesis was detected at doses less than 20 J/m2. However, in XP12BE populations, a decreased rate first evident at 15-30 h post-UV and before any cell degeneration and loss was observed for doses as low at 7 J/m2. This delayed effect was not observed in repair-proficient populations. The results are consistent with the hypothesis that the lethal action of UV in nondividing cells is one on DNA that leads to an inhibition of required protein synthesis by preventing RNA transcription.
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PMID:An effect of ultraviolet light on RNA and protein synthesis in nondividing human diploid fibroblasts. 9 67

Anthracene plus near ultraviolet (UV) light (UV-A, 320 to 400 nm) suppresses DNA synthesis and mitosis in mouse epidermis. Ultraviolet-A light or anthracene alone does not have any effect. There is no photoactivation of anthracene to enhance depression of DNA synthesis by either UV-B (290 to 320 nm) or UV-C (254 nm) light. While methoxsalen with UV-A light inhibits DNA synthesis, the phototoxic drugs chlorpromazine hydrochloride and demethylchlortetracycline do not. The combination of anthracene plus UV-A light may have therapeutic effectiveness for psoriasis with less potential for photocarcinogenesis than psoralens plus UV-A light.
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PMID:Anthracene with near ultraviolet light inhibiting epidermal proliferation. 10 62

The immunological responsiveness of a panel of 17 patients with systemic lupus erythematosus (SLE) was studied in an in vitro model of xenogeneic sensitization against mouse lymphoid cells. Generation of cytotoxic thymus-derived (T) cells evaluated by a chromium release assay against labeled target cells was found to be drastically impaired in these lupus patients. Such depression was independent of drug therapy at the time of the study, clinical status, and other immunological parameters such as antibodies against native DNA, complement levels, cryoglobulinemia, circulating immune complexes, or T- and bone marrow-derived (B)-cell numbers. In contrast to the cytotoxic response, the proliferative responses to phytohemagglutinin, to allogeneic lymphocytes, and to xenogeneic lymphocytes were not significantly different from those of normal individuals. The latter response was shown to be H-2 restricted with the primed lymphocyte test. These results suggest the presence of a selective defect in the generation or in the expression of killer cells rather than a deficiency in antigen recognition by T cells. The role of serum factor(s) was examined by educating the lymphocytes of normal subjects in the presence of serum from SLE patients. Such manipulation affected both the generation of killer cells and the proliferative response. Finally our observations indicate that depression of cell-mediated immunity in SLE patients may be associated with several mechanisms including a cellular one, specifically affecting the generation of killer T cells, and a humoral one possibly as a result of antilymphocytic antibodies and(or) immune complexes.
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PMID:Selective depression of the xenogeneic cell-mediated lympholysis in systemic lupus erythematosus. 11 Aug 33

Chlorozotocin, 2-(3-(2-chloroethyl)-3-nitrosoureido)-D-glucopyranose, is a newly synthesized, water-soluble nitrosourea antitumor agent that is active against L1210 leukemia in mice. A 701% and a 401% increase in life-span were attained with a dose that was lethal to 10% of the animals (15 to 20 mg/kg, i.p.) in mice treated on Day 2 or Day 6 of L1210 tumor growth, respectivley. Sixity % of Day 2-treated mice and 30% of Day 6-treated mice survived for 90 days. At the maximally effective dose against L1210, chlorozotocin produced no significant depression in normal bone marrow DNA synthesis nor in peripheral neutrophil count, in contrast to a sustained greater than 90% inhibition in L1210 ascites cell DNA synthesis. If the antitumor activity and reduced bone marrow toxicity of chlorozotocin are confirmed in man the use of this compound would facilitate treatment of patients with neoplastic disease who have preexisting abnormal bone marrow function or would allow for the more effective use of a nitrosourea agent in combination with anticancer agents possessing more potent myelosuppressive properties.
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PMID:Chlorozotocin, 2-(3-(2-chloroethyl)-3-nitrosoureido)-D-glucopyranose, an antitumor agent with modified bone marrow toxicity. 12 70

An examination was made of the effect of treatment with methylating agents of varying carcinogenic potency and with stress inducing hormones upon DNA synthesis in the resting liver of the rat. With the methylating agents an early stimulation of DNA synthesis was observed, but this was depressed below the control levels at later times and with higher doses; hormone administration also resulted in a depression of DNA synthesis but, without any initial stimulation at the dosage employed. Under conditions of induced stress it was found that the extent of reaction of N-methyl-N-nitrosourea with cellular macromolecules was enhanced. This appeared to be a general effect upon the liver cell since both DNA and rRNA were affected in a similar manner.
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PMID:The effect of hormone induced stress upon the extent of alkylation of rat liver nucleic acids by N-methyl-N-nitrosourea. 12 16

To evaluate cardiac performance in renal hypertension more precisely we determined cardiac function curves for 12 normotensive rats and 11 other rats with two-kidney Goldblatt hypertension. The hypertensive group (BP = 134 +/- 8 mm Hg) showed significant cardiac hypertrophy (44 +/- 1% increased ratio of heart weight to body weight, P less than 0.01) and markedly increased left ventricular stroke work with a moderate but not significant increase in left ventricular end-diastolic pressure (LVEDP) (5.9 +/- 0.8 vs. 4.7 +/- 0.4 mm Hg). We evaluated cardiac function by recording left ventricular end-diastolic pressure, stroke volume (SV), and cardiac output (CO) (by electromagnetic flowmeter) during rapid alteration in venous return. Analysis of variations of stroke volume vs. left ventricular end-diastolic pressure showed that renal hypertension is accompanied by a significant decrease in ventricular performance [SV = 0.0190 + 0.0509 LVEDP - 0.0025 (LVEDP)2 + 0.0001 (LVEDP)3] compared to the normotensive group [SV = 0.0430 + 0.0644 LVEDP - 0.0040 (LVEDP)2 + 0.001 (LVEDP)3]. The alterations in stroke volume and cardiac output were associated with a lack of significant changes in the work performed at matched end-diastolic pressures. The data indicate that chronic renal hypertension is accompanied by a depression of cardiac reserve which is not revealed by measurements of cardiac output and left ventricular end-diastolic pressure at rest. This impairment in cardiac function might be related to either diminished cardiac contractility or reduced left ventricular compliance; the latter possibility is in accord with our finding of a 2-fold increase in the hydroxyproline content (P less than 0.001) and a significant decrease in the DNA concentration of ventricular tissue.
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PMID:Cardiac performance in rats with renal hypertension. 13 Oct 7

Variations in epidermal chalones after a single surface application of methylcholanthrene have been described in previous papers. This paper reports a study of the effect of croton oil on epidermal growth regulators (G1 and G2 chalones). Hairless mice received a single topical application of 0.2 ml 0.25% acetone solution of croton oil. Control mice received only acetone. The short-term effect of croton oil on epidermal DNA synthesis and mitotic rate was studied. Other groups of croton oil-treated and acetone-treated mice were then killed at similar time intervals, and the treated area of skin was homogenized and extracted with water. The inhibitory effect of these extracts on normal epidermal DNA synthesis and mitotic rate was assayed in normal hairless mice. The resulting inhibition was interpreted as an expression of the concentration of G1 and G2 chalones, respectively, in the skin extracts. The first experiment confirmed that a single croton oil application provokes a short block in epidermal mitotic activity and probably also in DNA synthesis. This was followed by bimodal peaks of increased activity, the two maxima of mitotic rate on days 2 and 7. The concentration of the two chalones in the skins of treated animals varied in inverse proportion to the alterations in the DNA synthesis and the mitotic rate, with one exception. There was here initially a depression both of the mitotic rate and a low concentration of G2 chalone. This was interpreted as a short, initial direct effect of croton oil on the G2 chalone present at the time of application. It is concluded that croton oil application injures and kills epidermal cells, with subsequent alterations in the content of G1 and G2 chalones. This theory may explain the changes observed. The effects of croton oil on the amount of G1 and G2 chalones in the skin are probably related to the direct, toxic, cell-killing effect of croton oil, and not to its specific cancer promoting potency.
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PMID:Effects of croton oil on epidermal growth regulators (chalones). 13 13

Variations in epidermal chalones after a single surface application of methylcholanthrene and croton oil have been described in previous papers. This paper reports a study of the effect of adhesive tape stripping of the skin on epidermal growth regulators (G1 and G2 chalones). Pieces of adhesive tape were applied 6 times to the same area of skin in groups of mice. The short-term effects of tape stripping on epidermal DNA synthesis and on mitotic rate were studied at different intervals after stripping. Other groups of mice were killed at similar time intervals after stripping, and the treated area of skin was homogenized and extracted with water. The inhibitory effect of these extracts on normal epidermal DNA synthesis and mitotic rate was assayed in normal hairless mice. The resulting inhibitions were interpreted as an expression of the concentration of G1 or G2 chalone in the skin extracts. The first experiment confirmed that cellophane tape stripping gives rise to a short block in epidermal mitotic activity and probably also in DNA synthesis. This was followed by bimodal peaks of increased activity, the two maxima of labelling index being found on days 2 and 6, and the two maxima of mitotic rate on days 1-2 and 7. The concentrations of the two chalones in the skins of treated animals varied in inverse proportion to the alterations in the DNA synthesis and the mitotic rate, with one exception. Here there was initially a depression of the mitotic rate and a low concentration of G2 chalone. This was interpreted as a short reaction of the basel cells to the stripping trauma. It is concluded that adhesive tape stripping removes the differentiating cells and injures some basel cells, simultaneously altering the content of G1 and G2 chalones. The resulting increase in the rates of DNA synthesis and mitosis lasts only until the number of cells is high enough to produce growth-regulating substances (chalones) again. This theory may explain the changes observed. Since similar reactions are seen after both carcinogenic and co-carcinogenic chemical injury of the epidermis, the reaction pattern seems to be a general response to cell injury or cell removal.
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PMID:Effects of cellophane tape stripping of mouse skin on epidermal growth regulators (chalones). 14 79

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