Reelin and its receptors, VLDLR and ApoER2, in melanocytic nevi.

Reelin is an extracellular signaling protein synthesized by Cajal-Retius cells in utero and early after birth, its presence being signaled in adult life too. Reelin acts on its receptors, VLDLR and ApoER2, acting on cytoskeleton, controlling migration and subsequently positioning and stabilizing the cortical neurons. We investigated the reelin presence and its receptors, VLDLR and ApoER2, in melanocytic nevi considering the neural crest origin of the nevus cells and their migration into skin during embrionary period. Melanocytic nevi present a strict cellular architecture and an increased malignant transforming capacity. We investigated reelin presence in 32 melanocytic nevi (5 junctional, 27 compound or 14 dysplastic nevi and 18 non dysplastic nevi). The assessment of reelin presence was performed by histological semiquantitative criteria. Results showed the presence of reelin in 29 cases (29/ 32). The presence of reelin was elevated in junctional areas as in dysplastic nevi. VLDLR presented positive values in 16 cases (16/ 32) and ApoER2 was weak positive in 7 cases. Reelin or its receptors was peritumorally absent. Our study showed the presence of reelin in nevus cells from cutaneous melanocytic nevi and, in these cells, only the VLDLR receptor was present in half of the cases. The significance of the reelin presence in cutaneous nevus cells may be hypothetically considered correlated with the position maintenance of the nevus cells or migration of these cells in malignant transforming situation. Abbreviations: ApoER2 = apolipoprotein receptor 2, VLDLR = very low density lipoprotein receptor, DAB-1 = DIABLO protein, HMB45 = gene HMB45.

ALZHEIMER'S DISEASE - ESTROGENS AND SELECTIVE ESTROGEN RECEPTOR MODULATORS, FRIENDS OR FOES?

Alzheimer's disease(AD) is the leading cause of dementia and is characterized by the presence of extensive plaque deposition and neurofibrillary pathology. The aim of the present study was to make an update regarding the influence of estrogens and SERMs on inflammation and on the resolution of inflammation, respectively, focusing on these most important features implicated in the pathophysiology of AD. Several hypothesised mechanisms of action of estrogens and SERM are exposed and also some relevant clinical studies on this subject are analysed. The analyzed studies have a high heterogeneity of preparations used, of administration routes, of the female population included and of the periods of time from the appearance/induction of menopause to the therapeutic intervention and also of follow-up periods of patients and of the means of evaluating their cognitive decline. One can say that all the ways of pharmacological influence on the membrane or intracellular signalling system associated to estrogens that may have clinical importance in the prevention and possibly in the treatment of AD have not been exhausted. Estrogens with selective ERα or G protein-coupled estrogen receptors (GPER1 or GqMER) effects could be used to influence the resolution of inflammation process, with positive effects on AD evolution.

The effect of caffeine on cerebral asymmetry in rats.

EEG recordings reflect the gross electrical activity emanating from synaptic currents of individual neurons across large cortical areas. During periods of cortical activation, waking, and higher EEG frequencies, neurons display increased excitability and exhibit more asynchronous discharge. The activity of a number of subcortical neurotransmitter systems from several brain regions outside the thalamus can directly affect cortical activity patterns. These neurotransmitter systems are generally targets of pharmacological intervention or participate in neurological disease states. The EEG trace comprises 4 primary rhythms: alfa (α), beta (ß), theta (θ) and delta (δ), which differ in frequency and amplitude. Caffeine effect on brain asymmetry will be studied in this work. The study was realized by means of Fourier spectral frequency analysis (Fast Fourier Transformation) of the EEG signal on anesthetized rats. All 3 doses of caffeine increased the global wave power of brain activity compared to the control group. All 3 doses of caffeine reduced the number of peaks for the 0.5-4 Hz frequency band, with the intermediate dose of caffeine having such an effect in the 4-7 Hz frequency band and the high dose of caffeine for the 23-33 Hz frequency band. The group that received high doses of caffeine showed an increase of the percentage of delta waves, with a concurrent decrease of the percentage of alpha1, alpha2, beta and theta 2 compared to the control group. Low-dose caffeine produced positive values of left-right difference in brain electrical activity (left predominance) for the 0.5-5 Hz and 7.8-10.3 Hz frequency intervals. The group that received high-dose caffeine exhibited a left hemisphere dominance for the 0.5-1.5 Hz; 13.9-14.1 Hz and 19-20 Hz frequency ranges while right dominance was present in the 1.7-13.9 Hz, 15-19 Hz and 21-25 Hz frequency ranges. In conclusion, all doses of caffeine modified the global power of the brain as well as the number of peaks on the frequency range of 0.5-4 Hz. The higher dose of caffeine modified the percentage of alpha 1, alpha2, beta, delta and theta2 waves compared to the control group. The group that received 150 mg caffeine/ kg.b.w. recorded a reversal in the cerebral asymmetry of rats in the 1.7-13.9 Hz, 15-19 Hz and 21-25 Hz frequency ranges.

Hepcidin in neoplastic disease.

Abnormalities in iron metabolism are frequent in the neoplastic disease. The relationship between hepcidin and iron homeostasis in cancerous pathology is incompletely known, although it has been studied during the last years. This paper aims to analyze the role of hepcidin in the neoplastic processes, its correlation with carcinogenesis and anemia, and with the disease activity. It must be mentioned that most of the aspects presented need to be verified in practice. Insufficient data are known for showing hepcidin involvement in carcinogenesis, metastasis or in appreciating the response to anemia treatment in neoplasia.

Cannabinoid system and cyclooxygenases inhibitors.

RATIONALE: The cannabinoid system consists of a complex array of receptors, substances with agonist/antagonist properties for those receptors, biosynthetic machineries and mechanisms for cellular uptake and degradation for endocannabinoids. This system is in interrelation with other systems that comprise lipid mediators like prostaglandins/leukotrienes systems. A clear antagonist, additive or synergic effect of nonsteroidal anti-inflammatory drugs (NSAIDs)-cannabinoid associations was not yet demonstrated. Aim. The present study tried to summarize the existent data on NSAIDS-cannabinoid system interactions. METHODS AND RESULTS: A bibliographic research in Medline, Scirus, Embase was made using as keywords cannabinoid, nonsteroidal anti-inflammatory drugs, aspirin, ibuprofen, flurbiprofen, diclofenac, indomethacin, acetaminophen, coxibs, antinociceptive, antinociception, analgesia DISCUSSIONS: A systematization of the results focusing on the NSAIDs drugs interaction with the cannabinoid system was presented. Out of all the substances analyzed in the present review, acetaminophen was studied the most regarding its interferences with the cannabinoid system, mainly due to contradictory results. CONCLUSIONS: Some NSAIDs have additional influences on the cannabinoid system either by inhibiting fatty acid amide hydrolase (FAAH) or by inhibiting a possible intracellular transporter of endocannabinoids. All the NSAIDs that inhibit COX2 can influence the cannabinoid system because a possible important degradative pathway for anandamide and 2-arachidonoyl glycerol might involve COX 2. One of the causes for the variety of experimental results presented might be due to pharmacokinetic mechanisms, depending on the route of administration and the dose