Structural analysis of atherosclerotic coronary arteries has suggested that stress concentrations are associated with plaque rupture and that these stress concentrations are critically dependent on the geometry and mechanical properties of the fibrous cap and lipid pool. Recent clinical trials of lipid-lowering therapy have shown a significant reduction in cardiac events associated with plaque rupture perhaps because of the changing composition of subintimal lipid pools. To test the hypothesis that changes in lipid composition can change the mechanical properties of lipid pools, we measured the dynamic shear moduli of combinations of cholesterol monohydrate crystals, phospholipids, and triglycerides similar to those found in atherosclerotic lesions. Increasing the cholesterol monohydrate concentration from 0% to 50% increased the real component of the dynamic shear modulus (storage modulus or stiffness) by 4.5 times at a frequency of 1 Hz (P<.001). All specimens demonstrated an increase in stiffness with increasing frequencies of stress ranging from 0.1 to 3 Hz. We conclude that the stiffness of model atherosclerotic plaque lipid pools is related to the concentration of cholesterol monohydrate crystals. Because the relative concentration of cholesterol monohydrate increases during early regression of experimental atherosclerosis, the resultant stiffening of the lipid pool may reduce stresses in plaque caps. However, the magnitude of the contribution of changing lipid stiffness to the reduction of cardiac events seen in clinical studies is unclear. caused by fracture of the surface of an atherosclerotic lesion. This catastrophic biomechanical event appears to occur more frequently near regions of high circumferential tensile and shear stresses that are located close to "soft" lipid pools.1 Structural analysis of model atherosclerotic vessels has suggested that these "stress concentration regions" are critically dependent on the geometry of the fibrous cap and lipid pool but not on the percent reduction in lumen area.2 Recently, two clinical trials of lipid-lowering therapy have raised interesting questions about the role of subintimal structure in the pathogenesis of acute ischemia. In one study, 120 men at high risk for cardiac events were studied with quantitative angiography after 2.5 years of lipid-lowering therapy. The degree of change in luminal diameter attributed to lipid-lowering therapy was small, yet a surprisingly significant reduction in clinical events was seen in the lipid-lowering group. 3 In the second study, the St Thomas' Atherosclerosis Regression Study (STARS), lipid lowering in 90 men for 39 months was also beneficial as assessed by angiographic measurements; although the angiographic change was small, a significant reduction in cardiac events was again seen. 4 Although the positive angiographic measurements in the relatively short treatment periods of these two studies are encouraging, these studies raise questions regarding the mechanisms of the benefits of cholesterollowering the...
Eccentric contractions require the lengthening of skeletal muscle during force production and result in acute and prolonged muscle injury. Because a variety of stressors, including physical exercise and injury, can result in the activation of the c-Jun NH(2)-terminal kinase (JNK) intracellular signaling cascade in skeletal muscle, we investigated the effects of eccentric exercise on the activation of this stress-activated protein kinase in human skeletal muscle. Twelve healthy subjects (7 men, 5 women) completed maximal concentric or eccentric knee extensions on a KinCom isokinetic dynamometer (10 sets, 10 repetitions). Percutaneous needle biopsies were obtained from the vastus lateralis muscle 24 h before exercise (basal), immediately postexercise, and 6 h postexercise. Whereas both forms of exercise increased JNK activity immediately postexercise, eccentric contractions resulted in a much higher activation (15.4 +/- 4.5 vs. 3.5 +/- 1.4-fold increase above basal, eccentric vs. concentric). By 6 h after exercise, JNK activity decreased back to baseline values. In contrast to the greater activation of JNK with eccentric exercise, the mitogen-activated protein kinase kinase 4, the immediate upstream regulator of JNK, was similarly activated by concentric and eccentric exercise. Because the activation of JNK promotes the phosphorylation of a variety of transcription factors, including c-Jun, the results from this study suggest that JNK may be involved in the molecular and cellular adaptations that occur in response to injury-producing exercise in human skeletal muscle.
Partial screening was performed on 10,800 cervical smears, comprising 8640 filed negative and unsatisfactory smears and 2160 newly received smears prior to conventional screening. Each slide was screened for 30 s and those considered abnormal were reviewed by standard screening. Partial screening led to the detection of 27 additional infections and 44 additional cytological abnormalities. These detection rates are better than those obtained with the traditional method of rescreening only a proportion of smears. Amongst the smears partially screened before conventional screening, partial screening detected 37-66% of infections and 22-71% of cytological abnormalities. We recommend the use of partial rescreening of all negatively reported smears as a method of internal quality control in cervical cytology laboratories.
Vaginal and LBC samples showed very similar performance for the detection of CIN2+ in this population using the Cobas HPV test; further validation of these findings in screening contexts will be of value. Self-taken samples may have less utility in a 'test of cure' setting-given the higher prevalence of HPV relative to LBC.
Little is known about the regulation of the mitogen-activated protein (MAP) kinase signaling cascades by hormonal stimulation in vivo. The extracellular signal-regulated kinase (ERK) and the c-jun kinase (JNK) are two MAP kinase signaling pathways that could play a role in the cellular response to hormones such as insulin and epinephrine. We studied the effects of insulin (20 U/rat) and epinephrine (25 microg/100 g body wt) injected in vivo on ERK and JNK signaling in skeletal muscle from Sprague-Dawley rats. Insulin significantly increased ERK phosphorylation and the activity of its downstream substrate, the p90 ribosomal S6 kinase 2 (RSK2), by 1.4-fold, but it had no effect on JNK activity. In contrast, epinephrine had no effect on ERK phosphorylation or RSK2 activity, but it increased JNK activity by twofold, an effect that was inhibited by the presence of combined alpha and beta blockade. Furthermore, the phosphorylation of both p46 and p55 isoforms of JNK, measured by phosphospecific antibody, was increased severalfold. The activity and phosphorylation of MAP kinase kinase (MKK)-4, an upstream regulator of JNK, was unchanged by epinephrine. Incubation of isolated soleus muscles in vitro with epinephrine (10(-5) mol/l) also increased JNK activity by twofold. These data are the first to demonstrate that epinephrine can increase JNK activity. Insulin and epinephrine have different effects on MAP kinase signaling pathways in skeletal muscle, which may be one of the underlying molecular mechanisms through which these hormones regulate opposing metabolic functions.
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