Alfredo Giner-Sorolla

Carcinogenic N-hydroxylaminopurine derivatives do not act as base analog mutagens in Salmonella typhimurium

N-Hydroxylaminopurines are highly mutagenic for growing as well as resting Salmonella typhimurium strain TA100 and to a lesser extent for strain TA98. Aminopurines, under similar conditions, are not mutagenic. N-Methylhydroxylaminopurine, under similar conditions, exhibits only minimal activity. The results are taken to indicate that unlike non-hydroxylated aminopurines, N-hydroxylaminopurines exert their mutagenicity not by acting as base analogs but by direct covalent binding with DNA-guanine.

Methyl inosine monophosphate (MIMP), a new purine immunomodulator for HIV infection

Prior work has documented the thymomimetic and immunotherapeutic activity of purine molecules related in structure to inosine. Synthesis of a series of new structures has yielded a stable methylated form of IMP resistant to hydrolysis by 5 nucleotidase. With both human peripheral blood lymphocytes and murines splenocytes, Methyl Inosine Monophosphate (MIMP) augments proliferative responses to T-cell mitogens like phytohemagglutinin (PHA), but less so, or not at all, to B-cell mitogens like pokeweed or endotoxin (LPS). MIMP does not directly stimulate lymphocytes alone in the absence of mitogen. The optimal effects of MIMP parallel the optimal effects of PHA. The magnitude of the effect is greater and more consistent than with other purine immunomodulators. MIMP is non-toxic in vitro and in vivo and is orally active in mice. Significant effects are observed as low as 0.1 and 1 micrograms/ml in vitro and 0.1 or 1 mg/kg in vivo. MIMP is a candidate third generation purine under development for immunotherapeutic purposes.

Methyl inosine monophosphate: a potential immunotherapeutic for early human immunodeficiency virus (HIV) infection.

MIMP is a new thymomimetic purine under development for immunorestorative therapy. Lymphocytes were obtained from eight patients with acquired immunodeficiency disease (AIDS), eight with symptomatic pre-AIDS (ARC), and 22 normal controls and were stimulated in vitro with phytohemagglutinin (PHA). AIDS patients (mean CD4 counts of 40) showed PHA responses less than 10% of control while ARC patients (mean CD4 counts of 544) showed responses approximately 50% of the control responses. MIMP (0.1, 1, 10 and 100 micrograms/ml) progressively augmented the PHA responses in all these groups. The augmentation of the responses of the leukocytes of AIDS patients while statistically significant was minimal. The augmentation of the responses of ARC patients was significant and their maximal responses approached control levels. The effect of 1 micrograms/ml MIMP was comparable with that observed with indomethacin (10(-6) M) and interleukin-2 (IL2 - 4 units/ml) and was additive with each of these stimulants. In a parallel manner, MIMP restored the suppression of control lymphocytes induced by the immunosuppressive 17 amino acid fragment of the P41 peptide of HIV. In vivo experiments showed that MIMP significantly delayed death in a murine FLV AIDS model at a dose of 1 mg/kg by the oral or parenteral route. MIMP is under preclinical development for early HIV disease to forestall progression to AIDS by attenuating virus-induced immunosuppression.

Potentiation of immune responses in mice by a new inosine derivative—Methyl inosine monophosphate (MIMP)

Inosine 5-methyl monophosphate (MIMP) is a new immunomodulator designed to improve upon the activity of other thymomimetic purines. In Balb/c mice, MIMP was assessed for toxicity and activity on immune responses. The lethal dose for half the mice (LD50) exceeded 500 mg/kg of body weight by both the parenteral and oral routes. At doses of 1-100 mg/kg, the mice showed no visible untoward effects. The antibody response of splenocytes to sheep erythrocytes (SRBC) was measured by IgM plaque-forming cells (PFC) in soft agar under optimal conditions of immunization and challenge. MIMP (1-100 mg/kg) was given by both the intraperitoneal and oral routes (gavage) at the time of SRBC injection and 4 days thereafter. The PFC response was found to be significantly augmented. The maximum effect (approximately 2x) was observed at 50 and 100 mg/kg, via intraperitoneal (i.p.) and oral routes, respectively. Increases (maximally 1.5x) in the responses of splenic lymphocytes to mitogen stimulation with phytohemagglutinin (PHA) and concanavalin A (Con A) were observed under similar conditions of MIMP treatment. SRBC-induced delayed-hypersensitivity (DTH) was also measured under optimal conditions. By both i.p. and oral routes, enhancement of DTH response was produced by the lower doses of MIMP (0.01-1 mg/kg). Again, a second peak of optimum stimulation of DTH response was produced by 50 mg/kg of MIMP when administered by both routes. The effect was observed mainly on the sensitization rather than on the expression phase. MIMP qualifies as an effective immunopotentiator in normal mice.

Methyl inosine monophosphate (MIMP) augments T-lymphocyte mitogen responses and reverses various immunosuppressants

Methyl inosine monophosphate (MIMP) augments preferentially the in vitro responses of human and murine lymphocytes to a T-cell mitogen such as phytohemagglutinin (PHA) and inconsistently to a B-cell mitogen such as pokeweed or lipopolysaccharide (LPS). In a normal interleukin-2-dependent cell line (CTLL), MIMP showed little or no effect on IL-2 action; however, in a murine CTLL line exhibiting impaired responses to IL-2, MIMP stimulated thymidine incorporation and restored the response to IL-2. MIMP augments the PHA responses of both CD4+ and CD8+ human peripheral blood T-cells. The effect of MIMP to augment the PHA response of human lymphocytes is paralleled by the parent molecule, IMP. MIMP, but not IMP, is resistant to hydrolysis by 5nucleotidase; thus, MIMP appears to be a protected analogue of IMP which is capable of in vivo action. MIMP (100 micrograms/ml) augments the PHA responses of 15 to 24 elderly humans. MIMP also augments the PHA responses of eight HIV-infected pre-AIDS patients but not of eight AIDS patients. When PHA responses of human lymphocytes are suppressed in vitro by an HIV-derived immunosuppressive peptide, interferon alpha, or prostaglandin PGE2, MIMP (0.1-100 micrograms/ml) progressively restores the depressed response; however, when the suppression is severe (greater than 50%), MIMP cannot restore the response. These data indicate that MIMP potentiates normal T-lymphocyte mitogen responses and restores those impaired by a variety of inflammatory and immunosuppressive influences.

N-Nitrosocimetidine as a modifier of chemically-initiated tumors in mice

N-Nitrosocimetidine (NCM) is a nitrosation product of cimetidine, a commonly-prescribed pharmaceutical agent. In spite of its known genotoxicity, NCM has failed to cause tumors in assays with rats and mice, but has given indications of enhancing or suppressive effects on tumor development. This possibility was tested by administering NCM topically to the skin or in the drinking water to mice in which tumors had been initiated by treatment with chemical carcinogens. Sencar mouse skin papillomas initiated by 7,12-dimethylbenzanthracene (DMBA) and promoted by 12-O-decanoylphorbol-13-acetate (TPA), progressed more rapidly to carcinoma on mice given treatment during stage 3 (after TPA) with NCM (1 mg/week) or N-methyl-N-nitro-N-nitrosoguanidine (MNNG, 120 micrograms/week) [corrected] than on stage 3 acetone controls. Oral NCM (1 g/l drinking water) did not have this effect but rather suppressed development of keratoacanthomas, as did stage 3 MNNG or TPA. Primary lung tumors initiated in BALB/c mice by i.p. injection of urethane; and tumors of forestomach, lung, mammary, lymphoid and skin tissues caused in (C57BL/6 X DBA/2)F1 mice by oral DMBA were not markedly affected by NCM given in drinking water (1000-1800 ppm) until 14-16 months of age. These results confirm NCMs general lack of activity as an in vivo toxicant, but show that under certain circumstances it may enhance or suppress tumor development.