Clinical importance of CD7 expression in acute myelocytic leukemia (AML)

Many studies have shown the clinical importance of CD7 expression in AML patients. To evaluate the clinical importance and response to chemotherapy in CD7 positive AML, this study was conducted. From the patients, 76 cases were studied during 3 years. In 3 years of this study 70.5 percent of CD7 positive and 89.6 percent of CD7 negative patients achieved complete remission with no significant difference between these two groups (P=0.11). We concluded that despite no importance of expression of this antigen in our patients, prevalence of CD7 positive cases in our study in higher than similar studies done abroad (52.6 percent versus 30 percent). It seems in respect of small number of our patients for evaluation of clinical and laboratory properties, larger study is needed

Arrhythmia initiation in catecholaminergic polymorphic ventricular tachycardia type 1 depends on both heart rate and sympathetic stimulation

Aims: Catecholaminergic polymorphic ventricular tachycardia type 1 (CPVT1) predisposes to ventricular tachyarrhythmias (VTs) during high heart rates due to physical or psychological stress. The essential role of catecholaminergic effects on ventricular cardiomyocytes in this situation is well documented, but the importance of heart rate per se for arrhythmia initiation in CPVT1 is largely unexplored. Methods and results: Sixteen CPVT1 patients performed a bicycle stress-test. Occurrence of VT triggers, i.e. premature ventricular complexes (PVC), depended on high heart rate, with individual thresholds. Atrial pacing above the individual PVC threshold in three patients did not induce PVCs. The underlying mechanism for the clinical observation was explored using cardiomyocytes from mice with the RyR2-R2474S (RyR2-RS) mutation, which exhibit exercise-induced VTs. While rapid pacing increased the number of Ca2+ waves in both RyR2-RS and wild-type (p<0.05), β-adrenoceptor (βAR) stimulation induced more Ca2+ waves in RyR2-RS (p<0.05). Notably, Ca2+ waves occurred despite decreased sarcoplasmic reticulum (SR) Ca2+ content in RyR2-RS (p<0.05), suggesting increased cytosolic RyR2 Ca2+ sensitivity. A computational model of mouse ventricular cardiomyocyte electrophysiology reproduced the cellular CPVT1 phenotype when RyR2 Ca2+ sensitivity was increased. Importantly, diastolic fluctuations in phosphorylation of RyR2 and SR Ca2+ content determined Ca2+ wave initiation. These factors were modulated towards increased propensity for arrhythmia initiation by increased pacing rates, but even more by βAR stimulation. Conclusion: In CPVT1, VT propensity depends on individual heart rate thresholds for PVCs. Through converging data from clinical exercise stress-testing, cellular studies and computational modelling, we confirm the heart rate-independent pro-arrhythmic effects of βAR stimulation in CPVT1, but also identify an independent and synergistic contribution from effects of high heart rate

Exercise training stabilizes RyR2-dependent Ca2+ release in post-infarction heart failure

Aim: Dysfunction of the cardiac ryanodine receptor (RyR2) is an almost ubiquitous finding in animal models of heart failure (HF) and results in abnormal Ca 2+ release in cardiomyocytes that contributes to contractile impairment and arrhythmias. We tested whether exercise training (ET), as recommended by current guidelines, had the potential to stabilize RyR2-dependent Ca 2+ release in rats with post-myocardial infarction HF. Materials and Methods: We subjected male Wistar rats to left coronary artery ligation or sham operations. After 1 week, animals were characterized by echocardiography and randomized to high-intensity interval ET on treadmills or to sedentary behavior (SED). Running speed was adjusted based on a weekly VO 2max test. We repeated echocardiography after 5 weeks of ET and harvested left ventricular cardiomyocytes for analysis of RyR2-dependent systolic and spontaneous Ca 2+ release. Phosphoproteins were analyzed by Western blotting, and beta-adrenoceptor density was quantified by radioligand binding. Results: ET increased VO 2max in HF-ET rats to 127% of HF-SED ( P &amp;lt; 0.05). This coincided with attenuated spontaneous SR Ca 2+ release in left ventricular cardiomyocytes from HF-ET but also reduced Ca 2+ transient amplitude and slowed Ca 2+ reuptake during adrenoceptor activation. However, ventricular diameter and fractional shortening were unaffected by ET. Analysis of Ca 2+ homeostasis and major proteins involved in the regulation of SR Ca 2+ release and reuptake could not explain the attenuated spontaneous SR Ca 2+ release or reduced Ca 2+ transient amplitude. Importantly, measurements of beta-adrenoceptors showed a normalization of beta 1 -adrenoceptor density and beta 1 :beta 2 -adrenoceptor ratio in HF-ET. Conclusion: ET increased aerobic capacity in post-myocardial infarction HF rats and stabilized RyR2-dependent Ca 2+ release. Our data show that these effects of ET can be gained without major alterations in SR Ca 2+ regulatory proteins and indicate that future studies should include upstream parts of the sympathetic signaling pathway