Mercurius solubilis: actions on macrophages.

BACKGROUND: Macrophages play central roles in homeostasis as well as host defence in innate and acquired immunity, auto-immunity and immunopathology. Our research group has demonstrated the effects of highly diluted toxic substances in macrophages. AIM: To investigate if highly diluted Mercurius solubilis (Merc sol), can activate or modulate macrophage functions. METHODS: We evaluated the effects of Merc sol in the 6, 12, 30 and 200 centesimal high dilutions (CH) potencies on mice peritoneal macrophages (in vitro and in vivo). Merc sol was added to mice's drinking water for 7 days (in vivo treatment) and animals were euthanised and cells were collected. In vitro treatment was performed on macrophages and bone-marrow cell cultures. RESULTS: Macrophages showed activated morphology, both when Merc sol was added directly to the cell culture and to drinking water. The in vitro experiments showed enhanced morphological activation, increased interferon (IFN)γ release in the supernatant at lower dilutions and interleukin (IL)-4 production at higher dilutions. Increase in nitric oxide and decrease in superoxide (O(2)(-)) and hydrogen peroxide (H(2)O(2)) were also observed. In vivo treatment caused a decrease in O(2)(-) and increase in H(2)O(2) production by macrophages. DISCUSSION: Taken together, the results allow us to conclude that highly diluted Merc sol modulates reactive oxygen species (ROS), reactive nitrogen species (RNS) and cytokine secretion, which are central mediators of the immune system, wound healing and body homeostasis.

B1 and B2 kinin receptor participation in hyperproliferative and inflammatory skin processes in mice.

BACKGROUND: Kinins are released during dermal injury and inflammation and seem to contribute to the pathogenesis of cutaneous diseases. OBJECTIVE: Participation of kinins in skin inflammatory process was evaluated using knockout mice and non-peptide kinin receptor antagonists. METHODS: Chronic skin inflammation was induced by multiple applications of TPA in mice ear. RESULTS: The B(2) knockout mice (B(2)(-/-)) showed a significant increase of ear weight (23 ± 10%) and epidermal cellular hyperproliferation and acanthosis formation upon histological analysis when compared with wildtype mice. Also, evaluation of PCNA levels by Western blot and immunohistochemistry confirmed the increase in the epidermis hyperproliferation in the ear skin of B(2)(-/-) mice. In contrast, no modification in these parameters was detected in B(1) knockout mice (B(1)(-/-)). However, mice lacking both kinin receptors (B(1)B(2)(-/-)) presented a considerable reduction of epidermis thickness and in PCNA levels. Following the establishment of skin inflammation (5th day of TPA application) treatment with the non-peptide antagonists SSR 240612 (B(1) receptor antagonist), FR 173657 (B(2) receptor antagonist), or SSR 240612 plus FR 173657 topically applied, caused a significant inhibition of ear weight (20 ± 5%, 34 ± 4% and 32 ± 6%, respectively). In the histological analysis, the antagonists produced a reduction in epidermal hyperplasia and acanthosis formation; but the treatment with a combination of the two antagonists did not increase efficacy. CONCLUSION: Kinin receptors seem to be involved in the control of the keratinocyte hyperproliferative process, and non-peptide kinin receptor antagonists may be useful tools in the treatment of hyperproliferative skin disorders.