Histamine produces opposing effects to serotonin in the knee joint of rats.

UNLABELLED: Formalin injected in the knee joint of rats produces concentration-dependent nociception, edema, and plasma leakage (PL). Herein, we investigated the effect of histamine H1 receptor (H1R) antagonists in this model. Articular nociception was inferred from the paw elevation time (PET; seconds) during 1-minute periods of stimulated walking, determined every 5 minutes, throughout a 60-minute experimental session. Edema was evaluated by the increase in articular diameter (AD; mm), and PL was measured by the amount of Evans blue dye in the synovial fluid (PL; µg/mL). Loratadine and cetirizine, given systemically, both increased the PET. None of the treatments changed the AD and PL. Loratadine given locally with formalin increased the PET but was without effect when given in the contralateral knee. Systemic loratadine was also without effect when formalin was coinjected with sodium cromoglycate. Histamine and the selective H1R agonist 2-pyridylethylamine decreased the PET and potentiated morphine spinal analgesia, but did not affect the AD and PL. Cetirizine prevented the antinociceptive effect of the H1R agonist. The N-methyl-D-aspartate/histamine-site agonist tele-methylhistamine coinjected with formalin only increased PET. Serotonin alone had no effect on the PET and increased the AD, and the highest dose increased the PL. When coinjected with formalin, serotonin only caused hypernociception, and the highest dose also increased AD. NAN 190, cyproheptadine, and ondansetron (respectively, 5-HT1, 5-HT2, and 5-HT3 receptor antagonists) decreased the PET without changing the AD or PL. Collectively, these results suggest that in rats, the H1R plays an antinociceptive role within the knee joint, while serotonin receptors play a pronociceptive role. PERSPECTIVE: The present study revealed an antinociceptive mechanism that has previously not been detected by traditional nociceptive tests. Our observations may help to improve the development of new pharmacological strategies for the treatment of clinically relevant pains that generally originate in deep structures.

Evaluation of the pro-inflammatory potential of nanostructured drug carriers in knee-joints of rats: effect on nociception, edema, and cell migration.

Nanocarriers have been developed aiming at drug delivery; however, the irritating effects of these nanoparticles on naïve or inflamed articular tissues are not known. Poly(D,L-lactide) (N-PLA), methoxy poly(ethylene glycol)-b-poly(D,L-lactide) (N-PEG-PLA), and Dynasan 116 (SLN) were used to prepare the nanocarriers. The average diameter (nm) and zeta potential (mV) of these particles were, respectively, 251 and -33.2, 169 and -22.1, and 105 and -13.0. Naive or carrageenan-primed knee-joints received 100 microL of nanoparticle suspensions or control solution. Incapacitation and articular diameter were determined hourly. Synovial leukocytes were counted 6 h after nanoparticle injection. N-PLA increased the articular diameter and leukocytes, but did not cause incapacitation. In primed knee-joints, N-PLA caused incapacitation, and increased the articular diameter and leukocytes. SLN did not produce inflammatory signals either in naive or primed knees. In primed knee-joints, N-PEG-PLA presented an intermediate effect characterized by an increase in the articular diameter, and a slight increase of leukocytes, but not incapacitation. These results suggest that solid lipid nanoparticles may be safer than polymeric ones, which may be correlated to their chemical composition and superficial charge.