Effects of dietary folate on DNA strand breaks within mutation-prone exons of the p53 gene in rat colon.

BACKGROUND & AIMS: Diminished folate status has been observed to increase colorectal cancer risk. Folate plays an important role in DNA synthesis and repair. This study investigated the effects of dietary folate on DNA strand breaks in the p53 and Apc genes, and how these changes are related to steady-state levels of the corresponding transcripts. METHODS: Three groups of rats were fed diets containing 0, 2 (basal requirement), or 8 mg folate/kg for 5 weeks. At each weekly time point, plasma and colonic mucosal folate concentrations were determined. Site-specific DNA strand breaks were assessed by semiquantitative PCR. Steady-state levels of messenger RNA were measured by semiquantitative RT-PCR. RESULTS: Dietary folate deficiency produced progressive DNA strand breaks within exons 5-8 of the p53 gene in rat colon (P<0.02). Accumulation of strand breaks was not observed in other exons of the p53 gene, in the Apc and beta-actin genes, or at the genomic level. Folate supplementation at 4 times the basal requirement significantly increased p53 integrity compared with the basal and deficient diets (P<0.05). p53 integrity in exons 5-8 was significantly correlated with folate status (P<0.03). Dietary folate deprivation progressively decreased, whereas supplementation increased, steady-state levels of p53 transcript over 5 weeks (P<0.05). No such changes were observed for the Apc gene. Steady-state levels of p53 transcript were significantly correlated with folate status and p53 integrity in exons 5-8 (P<0.002). CONCLUSIONS: These data provide a plausible mechanism by which folate deficiency promotes, and folate supplementation suppresses, colorectal carcinogenesis.

Effect of allogeneic blood transfusion on solid tumor growth and pulmonary metastases in mice.

The effect of allogeneic blood transfusions on solid tumor growth and pulmonary metastases was examined in two different strains of mice. Recipient mice (C57B1 or DBA/2) were given transfusions from allogeneic donors (Balb/c or B6AF1, respectively). The effect of allogeneic blood transfusion on solid tumor growth (B16 in C57B1 mice and P815 in B6AF1 mice) as well as the number of pulmonary metastases (B16 in C57B1 mice) was examined utilizing inoculations of varying numbers of tumor cells. In both solid tumor models, allogeneic transfusion resulted in significant enhancement of tumor growth when smaller (1.25 x 10(5), 2.5 x 10(5)) numbers of tumor cells were inoculated into the host animal. In contrast, no effect of allogeneic transfusion on tumor growth was observed when higher (4.5 x 10(5)) numbers of tumor cells were inoculated. Similarly, increased numbers of pulmonary metastases following allogeneic blood transfusion were observed when lower numbers (1 x 10(5)) of B16 tumor cells were administered; whereas no effect was observed with higher (4.5 x 10(5)) tumor cell numbers. The data in the present study suggest that the number of tumor cells inoculated into the recipient animal has a strong bearing in the allogeneic blood-transfusion-induced tumor growth effect.

Effect of blood transfusions on experimental pulmonary metastases in mice.

We examined the effect of allogeneic blood transfusions (BT) on pulmonary metastases in a mouse model. Recipient (C57B1/6J) mice were transfused with either saline, syngeneic blood or allogeneic (Balb/c) blood on two occasions, days 0 and 3. One week after the last transfusion, recipient mice were injected intravenously with varying numbers of methylcholanthrene-induced fibrosarcoma cells. Twenty days later the number of pleural nodules was counted as an index of pulmonary metastasis. The data demonstrate that the inoculation of 2.5 x 10(5) or 1 x 10(5) tumor cells resulted in significantly higher numbers of pulmonary metastases in mice that received allogeneic BT than the mice that received syngeneic blood or saline. In contrast, allogeneic BT caused significant inhibition of pulmonary metastases in mice that received 3.5 x 10(5) tumor cells. The data suggest that the immunomodulatory (stimulatory or inhibitory) effect of BT is dependent on the numbers of tumor cells inoculated. It is likely that the conflicting reports in the literature on the effects of BT on tumor growth may be due to inoculation of different numbers of tumor cells. These results have an important bearing in understanding the effect of allogeneic BT on tumor growth both in experimental animals and in cancer patients.

Quantitation of cutaneous inflammation induced by reactive species generated by UV-visible irradiation of rose bengal.

The present studies were undertaken to quantitate the initial inflammatory response produced by the photo-generated reactive species in rabbit skin. Rose bengal (RB), a photosensitizer dye, was injected into the skin sites at various concentrations and exposed to UV-visible light for 30-120 min. The increase in vascular permeability and the accumulation of PMNs were investigated using 125I-labeled albumin and 51Cr-labeled PMNs. RB at a concentration of 1 nmol with 120-min exposure to light enhanced vascular permeability by 3.7 times and accumulation of PMNs by 3.3 times. As low as 0.01 nmol of RB produced discernible effects. beta-Carotene (0.1 nmole) inhibited the inflammatory response by 75-100%, suggesting that the reactive species involved in this response was predominantly singlet oxygen. The increase in vascular permeability was inhibited by 48-70% by 25 micrograms of chlorpheniramine maleate. It is therefore suggested that histamine plays a major role in the initial vascular response. The studies demonstrate that this rabbit model is suitable for the quantitation of photoinduced inflammatory response which is not observable by gross anatomic procedures.

Nature of the oxygen species generated by xanthine oxidase involved in secretory histamine release from mast cells.

The present studies were carried out to characterize the nature of reactive oxygen species generated by the xanthine-xanthine oxidase system involved in the release of histamine by noncytotoxic and cytotoxic mechanisms. To distinguish secretory release from lytic release, mast cells were loaded with 51Cr and the release of 51Cr into the incubation medium was used as a measure of cell lysis. The secretory release of histamine was not inhibited by superoxide dismutase or catalase alone. However, together these agents inhibited the release. This suggests that the combination of superoxide and hydrogen peroxide can evoke secretory release. The lytic release of histamine, as monitored by concomitant release of 51Cr from mast cells at higher concentration of xanthine oxidase or longer periods of incubation, seems to be related to hydrogen peroxide production since catalase inhibited the cell lysis. Since it has been reported that exogenously added hydrogen peroxide at concentrations below 10 mM did not induce cell lysis, the lytic release, although hydrogen peroxide dependent, may not be due to its direct effect on the cell surface. The cell lysis observed in the xanthine-xanthine oxidase system seems to be brought about by a complex mechanism involving the interactions of hydrogen peroxide and superoxide with cellular components. These studies indicate that the beneficial effects of superoxide dismutase seen in biological systems may partly be due to inhibition of the secretory processes stimulated by superoxide.

Effects of melanin-induced free radicals on the isolated rat peritoneal mast cells.

Pheomelanin from human red hair (RHM) produces considerably more cellular damage in Ehrlich ascites carcinoma cells when subjected to radiations of wavelength 320-700 nm than eumelanin from black hair (BHM). Irradiation of RHM generated large amounts of superoxide while BHM did not produce detectable amounts of superoxide. The present investigations describe the effects of irradiation of mast cells in the presence of various natural and synthetic melanins. Irradiation of mast cells in the presence of RHM and red hair melanoprotein released large amounts of histamine while BHM and synthetic melanins prepared from dopa, cysteinyldopa, or a mixture of dopa and cysteinyldopa did not release histamine. The release of histamine at lower concentrations of RHM was not accompanied by the release of 51Cr from chromium-loaded cells, suggesting that this release was of noncytotoxic nature. On the other hand, the release of histamine at higher concentrations of RHM was due to cell lysis since both histamine and cytoplasmic marker 51Cr were released to the same extent. The release evoked by large concentration RHM was not inhibited by superoxide dismutase or catalase. This suggests that the cell lysis under these conditions was not due to H2O2 or O-2. The finding that mast cells release histamine when irradiated in the presence of RHM suggests that the immediate and late-phase reactions seen in sunburn may in part be due to the release of mediators from these cells.