Variations in inflammatory genes are associated with periodontitis.

BACKGROUND: Periodontitis is a multi-factorial disease and several risk-factors such as infections, inflammatory responses, oral hygiene, smoke, aging and individual predisposition are involved in the disease. Pathogens trigger chronic inflammation with cytokines release which in turn leads to the destruction of the connective and the teeth supporting bone. The identification of genetic factors controlling oral inflammation may increase our understanding of genetic predisposition to periodontitis.Single nucleotide polymorphisms in the promoter region of Vascular Endothelial Growth Factor, Alpha-1-Antichymotripsin, hydroxy-methyl-glutaryl CoA reductase, Interferon alpha, Interleukin-1 Beta, Interleukin 10, Interleukin 6 and Tumor Necrosis Factor- alpha genes from a case/control study were investigated. RESULTS: The C allele of Vascular Endothelial Growth Factor, A allele of Interleukin 10 and GG genotype of Tumor Necrosis Factor-α were individually associated with chronic periodontitis. However, the concomitant presence of the three genetic markers in the same subjects appeared to play a synergistic role and increased several folds the risk of the disease. CONCLUSIONS: Our findings offer new tools to implement the screening of unaffected subjects with an increased susceptibility of periodontitis and increase our understanding regarding the genetic inflammatory background related to familiarity of the disease.

Mutation in the beta adducin subunit causes tissue-specific damage to myogenic tone.

BACKGROUND: Damage to renal artery myogenic tone is universally associated with progressive kidney damage. Recently, we have observed that mutations in the beta adducin subunit are associated with proteinuria in the Milan rat. Because of the role of adducin as a component of the cytoskeleton we hypothesized that this mutation may be associated with changes in myogenic tone. METHODS AND RESULTS: Congenic rats were generated with beta adducin subunit mutation (NB rats) and compared with a previously studied rat model with alpha adducin subunit mutation (NAs rats). Blood pressure and urinary protein excretion were studied at two time points: 6 weeks and 4 months of age, and at these time points, small renal, middle cerebral and skeletal (cremaster) arteries were isolated and studied using pressure myography. Agonist-induced vasoconstriction was not different between the two groups at any age. However, myogenic tone in renal arteries was significantly damaged in the NB rat compared to its NAs counterpart and this was associated with a decrease in vascular distensibility. There was a smaller reduction in myogenic tone in the middle cerebral arteries from the NB rat, whereas in the skeletal arteries there was no difference between the two strains. In the NB rat, this tissue-specific damage to myogenic tone was associated with progressive proteinuria despite lower blood pressure than the NAs rat. CONCLUSIONS: Mutations in the beta subunit of the adducin protein result in damage to renal artery myogenic tone and this is associated with renal damage as manifest by proteinuria.

ST2472: a new potential antipsychotic with very low liability to induce side-effects.

ST2472 was shown to bind to multiple receptors, thus resembling the affinity spectrum of atypical antipsychotics. The present study investigates its in-vivo potential antipsychotic effects. ST2472 is effective in the conditioned avoidance response (CAR) test in rats (ED50=1.5 mg/kg p.o.), a model sensitive to antipsychotics. It antagonizes amphetamine-induced hypermotility at dosages (minimal effective dose=0.7 mg/kg p.o.) that are lower than those necessary to antagonize amphetamine-induced stereotypy (minimal effective dose=30 mg/kg p.o.), in rats. This finding, together with the fact that ST2472 does not induce catalepsy in rodents at up to 100 mg/kg p.o., indicates that ST2472 has very low liability to induce extrapyramidal side-effects. ST2472 does not increase prolactinaemia after chronic treatment. In mice, ST2472 does not appear to alter blood pressure and heart rate in a significant fashion. In conclusion, ST2472 seems to be an antipsychotic with lower liability to produce side-effects than other antipsychotics, such as haloperidol, risperidone, olanzapine and clozapine, which were evaluated as reference drugs.

Matrix metalloprotease activity is enhanced in the compensated but not in the decompensated phase of pressure overload hypertrophy.

BACKGROUND: During the transition of pressure overload hypertrophy (POH) to heart failure (HF) there is intense interstitial cardiac remodeling, characterized by a complex balance between collagen deposition and degradation by matrix metalloproteases (MMPs). This study was aimed at investigating the process of cardiac remodeling during the different phases of the transition of POH to HF. METHODS: Guinea pigs underwent thoracic descending aortic banding or sham operation. Twelve weeks after surgery, left-ventricular (LV) end-diastolic internal dimension and ventricular systolic pressure were measured by combined M-mode echocardiography and micromanometer cathetherization. The MMP activity, tissue-specific MMP inhibitors (TIMPs), and collagen fraction were evaluated in LV tissue samples by zymography, ELISA, and computer-aided analysis, respectively. RESULTS: Banded animals were divided by lung weight values into either compensated left-ventricular hypertrophy (LVH) or HF groups, as compared with sham-operated controls. All HF animals exhibited a restrictive pattern of Doppler transmitral inflow, indicative of diastolic dysfunction, and developed lung congestion. Compensated LVH was associated with increased MMP-2 activity, which was blunted after transition to HF, at a time when TIMP-2 levels and collagen deposition were increased. CONCLUSIONS: The cardiac remodeling process that accompanies the development of POH is a phase-dependent process associated with progressive deterioration of cardiac function.

Istaroxime, a stimulator of sarcoplasmic reticulum calcium adenosine triphosphatase isoform 2a activity, as a novel therapeutic approach to heart failure.

Interventions involving calcium cycling may represent a promising approach to heart failure (HF) therapy because calcium handling is known to be deranged in human and experimental HF. Istaroxime is a sodium-potassium adenosine triphosphatase (ATPase) inhibitor with the unique property of increasing sarcoplasmic reticulum calcium ATPase (SERCA) isoform 2a (SERCA2a) activity. Because this was demonstrated in normal experimental models, we investigated whether istaroxime is able to improve global cardiac function and stimulate SERCA in failing hearts. In guinea pigs with 3-month aortic banding (AoB), echocardiographic results showed that istaroxime intravenous infusion (0.11 mg/kg per min) significantly increased both indices of contraction and relaxation (fractional shortening, +18+/-3.7%; aortic flow rate, +19+/-2.9%; peak myocardial systolic velocity, +36+/-7%; circumferential fiber shortening, +24+/-4.1%; peak atrial flow velocity, +69+/-8.6%; isovolumic relaxation time, +19+/-6.9%; and peak myocardial early diastolic velocity, +42+/-12%). In left ventricular sarcoplasmic reticulum microsomes from AoB animals, 100 nmol/L istaroxime normalized the depressed (-32%) SERCA2a maximum velocity and increased SERCA activity (+17%). In muscle strips from hearts from patients undergoing cardiac transplantation, istaroxime (0.1-1.0 micromol/L) increased (in a concentration-dependent manner) developed tension, the maximum and minimum first derivative of tension, and absolute velocity of contraction, while stimulating SERCA activity in sarcoplasmic reticulum microsomes at physiologic free calcium concentrations. In conclusion, istaroxime is presently the only available compound that stimulates SERCA2a activity and produces a luso-inotropic effect in HF.

Structure-based design and synthesis of novel potent Na+,K+ -ATPase inhibitors derived from a 5alpha,14alpha-androstane scaffold as positive inotropic compounds.

The design, synthesis, and biological properties of novel inhibitors of the Na(+),K(+)-ATPase as potential positive inotropic compounds are reported. Following our model of superposition between cassaine and digitoxigenin, digitalis-like activity has been elicited from a non-digitalis steroidal structure by suitable modifications of the 5alpha,14alpha-androstane skeleton. The strong hydrophobic interaction of the digitalis or cassaine polycyclic cores can be effectively obtained with the androstane skeleton taken in a reversed orientation. Thus, oxidation of C-6 and introduction in the C-3 position of the potent pharmacophoric group recently introduced by us, in the 17 position of the digitalis skeleton, namely, O-(omega-aminoalkyl)oxime, led to a series of substituted androstanes able to inhibit the Na(+),K(+)-ATPase, most of them with an IC(50) in the low micromolar level, and to induce a positive inotropic effect in guinea pig. Within this series, androstane-3,6,17-trione (E,Z)-3-(2-aminoethyl)oxime (22b, PST 2744) induced a strong positive inotropic effect while being less arrhythmogenic than digoxin, when the two compounds were compared at equiinotropic doses.