Maria C. Lopez

Melatonin induced increase in gamma-interferon production by murine splenocytes

Previously, we demonstrated that production of gamma-interferon (gamma-IFN) by the mouse splenocytes isolated at night was higher than from those isolated in the morning. In this paper we show that melatonin increased gamma-IFN production by murine splenocytes. Moreover, this stimulating effect was significantly higher (10 times) in the cells isolated at night than in those isolated in the morning (2 times).

Modification of thymic cell subsets induced by long-term cocaine administration during a murine retroviral infection producing AIDS

LP-BM5 murine leukemia virus (MuLV) infection and cocaine administration are known to impair the murine immune system. We have developed a murine model to study the effect of daily cocaine administration and retrovirus infection on the lymphoid cell populations of the thymus. C57BL/6 female mice were studied following chronic cocaine administration for 11 weeks with simultaneous LP-BM5 MuLV infection. Cocaine administration reduced body and thymus weight, significantly reduced the number of CD8+ cells in the thymus, and partially prevented thymus enlargement due to lymphoid cell proliferation induced by LP-BM5 MuLV infection. Retrovirus infection was associated with a decrease in the percentage and absolute number of Thy 1.2+, CD4+, and CD8+ cells in the thymus, an effect potentiated by cocaine administration. Therefore cocaine impairs thymic function by altering the number of cells expressing T cell differentiation markers in MAIDS.

Splenocyte subsets in normal and protein malnourished mice after long-term exposure to cocaine or morphine.

An experimental model which resembles human drug addiction was developed to study the effect of chronic drug (cocaine or morphine) administration on the immune system. As malnutrition has been associated with drug use, a low protein diet has been evaluated for its contribution to the impairment of the immune system during cocaine/morphine addiction. Female C57BL/6 mice that received a 20% or 4% casein diet were studied. Both drugs were administered intraperitoneally daily for 11 weeks and drugs were administered in increasing daily doses, beginning after 3 weeks of diet consumption. Doses of cocaine began with 5 mg/kg body weight and reached the maximum dose of 40 mg/kg/day at the fourth week. Doses of morphine gradually increased from 10 mg/kg to 75 mg/kg body weight with the maximum dose reached after 5 weeks of treatment. Cocaine administration reduced body weight, particularly in the low protein diet group, and spleen weight in protein malnourished mice. Cocaine as well as saline injected mice showed a decrease in the percentage of CD4+ CD8+ and Mac-1+ cells and an increase in B cells in the spleens of well nourished mice. Morphine-treated mice showed similar results to those observed in cocaine or saline treated mice. These results suggest that cocaine, morphine or saline injection can alter the percentage of cells that express a defined phenotype independently of the nutritional status of the subject. Moreover, the effect appears dependent on a stress mediated process.

Alterations in mouse Peyer's patch lymphocyte phenotype after ethanol consumption

The objective of this study was to determine if chronic ethanol consumption could modify cell populations in the Peyers patches (PP), which could favor pathogenic or opportunistic infections in mice, as seen in chronic alcohol addicts. Young C57BL/6 mice receiving the Lieber-DeCarli diet (36% of calories as ethanol) for 5 weeks presented a significant decrease in the total number of cells in the PP. Mature FVB mice receiving the Lieber-DeCarli diet for 19 weeks presented a highly significant decrease in the total number of cells and in the absolute number of T and B cells in the PP. Young C57BL/6 mice receiving the 100% NRC (30% ethanol) or the 60% NRC (30% ethanol) diets for 7 weeks presented alterations in the T and B cell phenotype comparable with the alterations observed in mice receiving the Lieber-DeCarli diet for 19 weeks. As less alcohol for a shorter time caused similar changes to those seen with a highly micronutrient enriched diet with more alcohol for a longer consumption period, micronutrient supplementation may overcome some immune damage found in animal models of alcoholism. Our data indicated that ethanol administration altered the mucosal immune system at the level of the PP, the site for antigen presentation and induction of a mucosal immune response.

Modification of spleen cell subsets by chronic cocaine administration and murine retrovirus infection in normal and protein-malnourished mice.

We have developed an experimental mouse model to study the effect of daily cocaine administration on the immune system during an acquired immune deficiency syndrome (AIDS). Mice were infected with LP-BM5 murine leukemia virus, a retrovirus which causes immunosuppression with the development of functional murine AIDS. Increasing doses of cocaine given by daily intraperitoneal injection for 11 weeks reduced body weight. A daily cocaine injection in some mice as well as a saline injection in others showed a decrease in the percentage of Thy 1.2+, CD4+ and CD8+ cells, while both treatments increased the percentage and absolute numbers of B-cells per spleen. Saline and cocaine treatment induced an increase in gamma-IFN and TNF-alpha production by splenocytes. Cocaine treatment favored a decrease in sIL-2R secretion. Saline and cocaine treatment had slightly different effects on the splenocytes of protein-malnourished mice. Cocaine treatment induced an increase in the percentage of CD8+ cells. Saline and cocaine treatments decreased the number of Mac 1+ cells in the spleen. Moreover, saline- and cocaine-treated protein-malnourished mice splenocytes did not present the increase in gamma-IFN production as well-nourished mice splenocytes showed. Retrovirus-infected mice showed a decrease in the percentage of Thy 1.2+ and CD8+ cells and an increase in the percentage and absolute numbers of CD4+, IL-2R+, Mac 1+ and B-cells. Cocaine partially prevented the enlargement of lymphoid organs due to lymphoid cell proliferation induced by murine retrovirus infection, but had little effect on the elevated percentage of CD4+ cells or B-cells or the depressed numbers of CD8+ cells associated with virus infection. However, cocaine did reduce the number of activated IL-2R+ cells and macrophages (Mac 1+) in addition to reducing the total number of cells per spleen in all subsets in retrovirus-infected mice, but not in uninfected controls. Cocaine treatment and retrovirus infection alone or in combination suppressed the release of sIL-2R into supernatant fluid during in vitro culture of splenocytes. These data illustrate that cocaine treatment modulates cell proliferation in retrovirus-infected mice and thus modifies the absolute number of cells in those subsets already altered by retrovirus infection. Retrovirus-infected and retrovirus-infected cocaine-treated protein-malnourished mice showed similar results.

Effect of short term cocaine administration on the immune system of young and old C57BL/6 female mice

It has been shown that either cocaine or aging alone can alter the immune system. Our objective was to study if the immune system of aging mice was more susceptible to the effect of cocaine than the immune system of young mice. We used a short term (20 days) cocaine daily administration protocol. Cocaine only decreased the absolute number of Thy 1+, CD4+, CD8+, IL-2R+, Mac 1+ and B cells, in the spleen of old mice. Old untreated mice had a lower number of Thy 1+ cells in the thymus, and a higher number of cells expressing IL-2R. Cocaine decreased the number of Thy 1+ cells in the thymus of both age groups. Old mice showed a lower number of IgA+ plasma cells in the intestinal lamina propria (ILP) than young mice. Short term cocaine administration provoked a decrease in the number of CD4+ cells in young mice ILP and of CD8+ cells in old mice ILP. Our data suggest that cocaine can potentiate the effect of aging on the thymus and on the mucosal immune system. Taken together, our findings indicate that aging and cocaine can potentiate each other to impairing the host immune system.

Effect of cocaine and murine aids on lamina propria T and B cells in normal mice

We developed an experimental model to study the effect of daily cocaine administration on the mucosal immune system during murine acquired immune deficiency syndrome (MAIDS). Mice were infected with LP-BM5 murine leukemia virus, a retrovirus which causes immunosuppression with development of functional murine AIDS. Mice were given cocaine by daily intraperitoneal injection for 11 weeks. Our objective was to investigate if cocaine treatment could alter the mucosal immune system at the level of the intestinal lamina propria (ILP) and if it could further modify the already altered mucosal immunity when it was administered to MAIDS-mice. Daily cocaine administration induced a significant decrease in the number of IgA+ cells with a concomitant increase in the number of CD8+ cells per villi in the ILP. Murine retrovirus infection alone decreased the number of IgA+ and CD4+ cells in the ILP, and this decreased was even more marked when MAIDS mice also received cocaine. These data indicate that cocaine administration could potentiate the dramatic effect that MAIDS infection has in the mucosal-associated lymphoid tissues.

Spleen and thymus cell subsets modified by long-term morphine administration and murine AIDS--II.

Intravenous heroin abusers suffer a great variety of infections, including AIDS (acquired immune deficiency syndrome). We developed an experimental mouse model to evaluate the long-term effect of in vivo morphine administration during retrovirus-induced immune dysfunction. Mice were treated daily for 11 weeks with increasing doses of morphine. Morphine treatment produced a decrease in body weight and spleen cell number. Murine retrovirus infection provoked an increase in body weight due to enlargement of lymphoid organs, and an increase in the percentage and absolute number of CD4+ and Mac 1+ cells. Interestingly, retrovirus-infected mice that were also morphine-treated did not show the increase in the relative proportion of Mac 1+ cells. Moreover, under the experimental conditions of protein-malnutrition and morphine treatment potentiation of immune dysfunction by murine retrovirus infection was investigated. Retrovirus infection-induced splenocyte proliferation was partially regulated by morphine treatment. Splenocytes from retrovirus-infected mice presented a higher percentage of IL-2R+ cells and, lower levels of sIL-2R in splenocyte supernatants. Mitogen-stimulated splenocytes had a lower production of interferon-gamma as well as an increase in the secretion of tumor necrosis factor-alpha. Thus morphine altered the immune system by down-regulating splenocyte proliferation, because retrovirus infection-induced splenocyte proliferation was partially regulated by morphine treatment. We also evaluated the effects of joint murine retrovirus infection and protein undernutrition on the thymus cell subsets. Retrovirus infection was associated with a decrease in the absolute number of Thy 1+, CD4+ and CD8+ cells per thymus with the CD8+ cell subset being the most affected. Moreover, retrovirus-infected mice presented a dramatic decrease in the percentage of double-positive (CD4+ CD8+) cells in the thymus as well as changes in its immunoarchitecture. While protein undernutrition alone did not produce further differences between infected versus non-infected, protein-undernourished, morphine treatment induced a greater decrease in thymocyte number than that seen in retrovirus- or morphine-treated animals alone.

Effect of ethanol and cocaine treatment on the immune system of v-Ha-ras-transgenic mice

The objective was to investigate if the presence of the v-Ha-ras oncogene could induce immune changes different to the ones observed in normal mice. Therefore, we decided to use Oncomice, the transgenic mice with an activated v-Ha-ras oncogene under the control of the mouse mammary tumor virus-promoter, and their normal inbred counterparts, FVB mice. Both strains of mice were fed the Lieber-DeCarli liquid diet with ethanol or the isocaloric control diet and were injected daily with cocaine or saline. The percentage and absolute number of T and B lymphocytes in the spleen and thymus were determined. The in vitro production of TNF-alpha (tumor necrosis factor-alpha), IL-2 (interleukin-2) and IFN-gamma (interferon-gamma) by spleen cells, and the levels of serum sIL-2R (soluble IL-2 receptor) were also measured. Oncomice fed the Lieber-DeCarli ethanol diet or receiving either saline or cocaine injections presented a higher tumor incidence than Oncomice receiving the control diet. A reduced total number of thymocytes as well as absolute number of cells in all the subsets was found in Oncomice. Moreover, a decreased percentage of CD8+ cells was also observed in Oncomouse spleens. These features were even more marked in ethanol-treated Oncomice. Higher serum sIL-2R levels were observed in Oncomice, especially in mice treated with ethanol or cocaine. The results suggest that the oncogene product, P21ras, plays an important role in dysregulating the immune system and hence in favoring tumorigenesis.

Cytokine Profile of Mouse Vaginal and Uterus Lymphocytes at Estrus and Diestrus

It is known that sex hormones regulate IgA and IgG levels in the female reproductive tract. Moreover, antigen presentation by uterine and vaginal epithelial cells is also under strict hormonal control. The effect of the estrous cycle on cytokine secretion by vaginal and uterine lymphoid cells has been examined in mice using simultaneous staining for cytoplasmic cytokines and surface markers after ex vivo culture with PMA/ionomycin in the presence of Brefeldin A, and flow cytometry analysis. Two different mice strains, BALB/c and C57BL/6 mice, were used. The most relevant finding was the increase in the proportion of vaginal cells secreting IFN-γ at diestrus in both strains of mice. Other cytokines (IL-2 and IL-4) as well as some T cell subsets seemed to be modified in a strain dependent fashion. Data also suggest that NK cells are at least partially responsible for IFN-γ secretion. Our data indicate that vaginal and uterus lymphoid cells isolated at diestrus were in vivo activated to secrete cytokines after ex vivo culture. IFN-γ seems to be the key cytokine, since it increases in both strains of mice.