Resynthesis of trypsinized sheep red blood cell receptors on human lymphocytes: comparison of the effects of immunopotentiators of biological and synthetic origin in vitro

Inosine pranobex. A preliminary review of its pharmacodynamic and pharmacokinetic properties, and therapeutic efficacy

Inosine pranobex is a synthetic compound formed from the p-acetamido benzoate salt of N-N dimethylamino-2-propanol and inosine in a 3:1 molar ratio. It has been reported to exert antiviral and antitumour activities in vivo which are secondary to an immunomodulating effect, and early results suggest beneficial clinical effects in several diseases and infections including mucocutaneous Herpes simplex infections, subacute sclerosing panencephalitis, genital warts, influenza, zoster, and type B viral hepatitis, as well as in homosexual men with persistent generalised lymphadenopathy. However, many of the studies have been preliminary in nature and deficient in design or in the reporting of their results. One must therefore conclude that while inosine pranobex may prove to be a valuable and innovative therapy for a number of diseases and infections for which no satisfactory therapy exist, further long term well controlled studies in larger numbers of patients are required before definitive conclusions about the efficacy of inosine pranobex in these disorders will be possible.

Effects of NPT 15392 in vitro on human leukocyte functions

NPT 15392 (Erythro-9 (2-hydroxy-3 nonyl) hypoxanthine), a novel heterocyclic immunomodulatory compound, was analyzed over a broad concentration range on a variety of human blood leukocyte functions in vitro. NPT 15392 augmented mitogen-induced lymphocyte transformation in a variable fashion; lymphocytes from 9 of 24 individuals showed significant stimulation with phytohemagglutinin at 0.01 microgram/ml of NPT 15392, and 3 of 14 and 3 of 3 showed similar augmentation with concanavalin A and pokeweed mitogen, respectively. NPT 15392 above 10 microgram/ml inhibited mitogen responses and did not itself stimulate cell division. NPT 15392 also augmented responses of lymphocytes to antigenic stimulation with Candida and Staphylococcus antigens, purified protein derivative, and allogeneic cells in a variable manner. When observed, stimulation occurred at 0.01-1 microgram/ml of NPT 15392 for Candida and Staph. and at 0.01 microgram/ml with PPD and allogeneic cells. NPT 15392 (0.01-1 microgram/ml) consistently induced suppressor cell function alone and in combination with concanavalin A. This effect is apparently mediated by T lymphocytes since suppression was not mediated by interferon, prostaglandin or histamine. In addition, NPT 15392 (0.01-10 microgram/ml) significantly augmented "active" T cell rosettes. NPT 15392 over a broad concentration range and in the presence and absence of interferon did not stimulate natural killer cell activity or antibody-dependent cellular cytotoxicity. The data indicate that NPT 15392 is a modulator of such T lymphocyte functions as proliferative response to antigen and mitogen, suppressor activity and receptor display. Such activities imply potential therapeutic use in immunodeficiency related to defects of the thymus and thymus-derived lymphocytes.