The immune response modifiers imiquimod and R-848 are potent activators of B lymphocytes.

Imiquimod and R-848 are members of a family of immune response modifiers that stimulate cytokine production in monocyte/macrophages and dendritic cell cultures. This study evaluated the effects of the imidazoquinolines, imiquimod and R-848, on B lymphocyte activation. Both agents induced proliferation of murine T-cell-depleted and highly purified splenic B cell preparations as well as purified human B cells. Resting and activated B cells responded to these agents, with activated cells responding more efficiently. B cells from the LPS-hyporesponsive C3H/HeJ mice and guanosine-hyporesponsive SJL mice proliferated in response to imiquimod and R-848, indicating a different mechanism of action than lipopolysaccharide and guanine nucleosides. B cells were also stimulated by imiquimod and R-848 to produce increased immunoglobulin levels. Increased expression of a number of B cell activation markers were seen following imiquimod or R-848 stimulation. Finally, R-848 was shown to act as a vaccine adjuvant enhancing OVA-specific IgG2a levels while suppressing total IgE. These results indicate that R-848 and imiquimod are potent activators of B lymphocytes and are capable of augmenting antigen-specific immunoglobulin production.

Treatment of primary herpes simplex virus infection in guinea pigs by imiquimod.

Imiquimod (also known as R-837 and S-26308) is an imidazoquinoline immune response modifier and is available in the US and several other countries for the treatment of external genital warts. Imiquimod has no direct antiviral activity but demonstrates efficacy in several animal models of virus infection. The drug is recognized by antigen presenting cells including monocytes, macrophages, B-cells and dendritic cells and induces these cells to produce cytokines including interferon-alpha (IFN-alpha) and others. Imiquimod's ability to inhibit primary lesion development in the guinea pig model of Herpes simplex virus (HSV) intravaginal infection was studied. Imiquimod given intravaginally reduced primary lesions, reduced virus shedding and reduced virus content of spinal cords from HSV infected guinea pigs. A single drug application of 0.5 mg/kg reduced lesion frequency when given between 24 h before inoculation to 16 h after inoculation. A single drug application of 5 mg/kg reduced lesion frequency and severity when administered between 72 h before inoculation to 24 h after inoculation. The antiviral effect resulting from interferon induction in the animal lasts much longer than the drug itself, thus imiquimod is different than drugs having direct antiviral activity. Twice daily drug application for 4 days was effective when initiated up to 72 h after inoculation, however, once lesions began to appear, imiquimod treatment was not able to stop lesion development. Imiquimod treatment inhibited lesion development and/or virus shedding in guinea pigs inoculated with HSV-1, HSV-2 or virus isolates resistant to acyclovir. Imiquimod is currently in clinical trials for treating human HSV infections.

Cytokine induction in hairless mouse and rat skin after topical application of the immune response modifiers imiquimod and S-28463.

ALDARA (imiquimod cream 5%) recently became available for the treatment of genital and perianal warts; however, the topical mechanism of action of imiquimod is not fully understood. Imiquimod, and its analogs R-842, S-27609, and S-28463, are potent anti-viral and anti-tumor agents in animal models. Much of the biologic activity of these compounds can be attributed to the induction of cytokines, including interferon-alpha, tumor necrosis factor-alpha, interleukins-1, -6, -8, and others. This study was performed to characterize the response of mice and rats to topical application of imiquimod and S-28463 and also to evaluate these agents in cultures of murine and human skin cells. Topical administration of imiquimod or S-28463 to the flanks of hairless mice and rats leads to increases in local concentrations of interferon and tumor necrosis factor in the skin. The concentrations of interferon and tumor necrosis factor were higher at the site of drug application than in skin from the contralateral flank or skin from untreated animals. Interferon-alpha mRNA levels were also elevated in the skin of mice after topical application of either imiquimod or S-28463. In vitro, both imiquimod and S-28463 induced increases in interferon and tumor necrosis factor in cultures of cells isolated from hairless mouse skin. Imiquimod also increased interleukin-8 concentrations in human keratinocyte and fibroblast cultures, whereas S-28463 induced increases in tumor necrosis factor in fibroblast cultures. These results demonstrate that imiquimod and S-28463 stimulate production of cytokines in the skin after topical application, which may play a major role in its activity in genital wart patients.

Induction of cytokines in cynomolgus monkeys by the immune response modifiers, imiquimod, S-27609 and S-28463.

Imiquimod, S-27609 and S-28463 are imidazoquinolines known to have antiviral and antitumour properties mediated by the induction of cytokines, in particular interferon alpha (IFN-alpha). This study evaluated these compounds for their ability to induce cytokines and cytokine specific messenger RNAs (mRNA) in cynomologus monkeys (Macaca fascicularis). Peripheral blood mononuclear cell (PBMC) cultures from monkeys produced IFN, interleukin 1beta (IL-1beta), IL-6 and IL-8 after treatment with imiquimod, S-27609 and S-28463. Tumour necrosis factor alpha (TNF-alpha) was also increased in cultures stimulated with S-27609 or S-28463. Monkey PBMCs stimulated with imiquimod, S-27609 and S-28463 showed increased mRNA levels of IFN-alpha, IL-1alpha, IL-6 and the IFN inducible protein, MxA above those seen in untreated cultures. S-27609 and S-28463 also had higher TNF-alpha mRNA expression than cultures not receiving drugs. When compared to lipopolysaccharide (LPS), S-27609 was less effective at inducing IL-1beta, IL-6, IL-8 and TNF-alpha but induced higher concentrations of IFN. Similar results were seen when evaluating cytokine mRNA levels. Upon oral administration to monkeys, S-28463 stimulated a dose-dependent increase in serum concentrations of IFN, TNF-alpha, IL-1 receptor antagonist (IL-1Ra) and IL-6, while imiquimod induced increases in IFN and IL-1Ra concentrations. Finally, skin biopsies from monkeys treated topically with S-28463 had increases over baseline in mRNA for IFN-alpha, IL-1alpha, IL-6 and MxA protein. The data show that imidazoquinolines induce cytokines and cytokine specific mRNA in cynomolgus monkeys. These results demonstrate the usefulness of human amplimers and human ELISAs in the detection of cytokine specific mRNAs and proteins in cynomolgus monkeys.

Immunomodulating and antiviral activities of the imidazoquinoline S-28463.

Recently, a new class of immunomodulating agents, represented by the molecules imiquimod and R-842, has demonstrated potent antiviral and antitumor activities in animal models. In this study, another representative of this class, S-28463 (4-amino-2-ethoxymethyl-alpha,alpha-dimethyl-1H-imidazo[4,5-c]quinoline- 1- ethanol) was evaluated for its immunomodulating and antiviral activities. S-28463 induced IFN and other cytokines in vivo in mice, rats, monkeys and in vitro in human peripheral blood mononuclear cell cultures. S-28463 showed potent antiviral activity against herpes simplex virus-challenged guinea pigs when given subcutaneously, dermally, or intravaginally 24 h before infection. Antiviral activity in guinea pigs correlated with the induction of serum 2',5'-oligoadenylate synthetase activity. Thus, S-28463, like the other imidazoquinolines, demonstrates potent antiviral and immunomodulating effects in a number of models.

Cytokine induction by the immunomodulators imiquimod and S-27609.

Imiquimod (R-837, S-26308) and the analogue S-27609 were evaluated for cytokine induction in human blood cells. Both compounds induced interferon-alpha (IFN), tumor necrosis factor-alpha (TNF), interleukin (IL)-1 beta, and IL-6 with S-27609 being 5 to 10 times more potent. Imiquimod and S-27609 also induced IL-1 alpha, IL-1 receptor antagonist, IL-10, granulocyte-macrophage colony-stimulating factor (GM-CSF), granulocyte CSF (G-CSF), and macrophage inflammatory protein-1 alpha. The profile of cytokines induced by imiquimod and S-27609 was different from those seen with lipopolysaccharide and polyinosinic-polycytidylic acid. Kinetic studies with both imiquimod and S-27609 revealed induction of cytokines as early as 1-4 h after stimulation. Although most of the cytokines produced by S-27609 were secreted, significant concentrations of IL-1 alpha and IL-1 beta remained intracellular. Monocytes were largely responsible for the cytokines produced. Finally, S-27609-induced mRNA expression for TNF, IFN, and IL-8, and this induction did not require protein synthesis. Taken together, these studies extend previous findings by showing induction of additional cytokines and providing insight into the mechanism of cytokine induction by these molecules.

Cellular requirements for cytokine production in response to the immunomodulators imiquimod and S-27609.

Imiquimod (R-837) and its analog, S-27609, belong to a class of imidazoquinolinamines that have potent antitumor and antiviral effects in animals. Much of their biologic activity is a result of the induction of cytokines, including interferon-alpha (IFN-alpha), tumor necrosis factor alpha (TNF), and others. In this study, the cells responsible for S-27609- and imiquimod-induced cytokine production were characterized. E rosette+ T cells were not the major cell population responsible for IFN-alpha and TNF in response to S-27609 or imiquimod. In contrast, E rosette- cells and unseparated PBMC produced similar concentrations of IFN-alpha and TNF in response to S-27609 and imiquimod. Elimination of monocytes by treatment with the lysosomotropic agent L-leucine methyl ester (LME) or depletion using antibody to CD14 and immunomagnetic beads abrogated IFN-alpha and TNF production induced by S-27609, imiquimod, or LPS but not poly(I)/(C). LME treatment also abolished interleukin (IL)-1 alpha, IL-beta, IL-6, and IL-8 production stimulated by S-27609 and imiquimod. Removal of HLA-DR+ or CD36+ monocytes also caused a significant reduction in S-27609- and imiquimod-induced IFN-alpha and TNF. Elimination of B cells, NK cells, and dendritic cells did not significantly reduce cytokine induction in response to S-27609. Thus, the cell population responsible for the majority of cytokine release in human PBMC in response to S-27609 and imiquimod is a E rosette-, CD14+, CD36+, HLA-DR+ monocyte.