Journal of Laboratory and Clinical Medicine最新文献

We are reporting the case of an ambulatory young woman with a 10-year history of recurrent venous thrombosis who presented to us with diffuse intravascular coagulation (DIC). After excluding the recognized causes of DIC, we examined the possibility that her clinically quiescent ulcerative colitis might be the underlying stimulus. We documented sepsis-range endotoxemia in this patient at a time when she was afebrile and had a normal C-reactive protein level. In vitro her serum upregulated tissue factor in cultured endothelial cells. We postulate that she had become tolerant to the systemic effects of endotoxin leaking from her inflamed colon but that the endotoxin stimulated her endothelium and/or monocytes to produce tissue factor that made her intensely hypercoagulable. Her prothrombotic state may have been compounded by the fact that she was heterozygous for prothrombin G20210A and that her plasma clotting time demonstrated resistance to activated protein C.

It is now widely accepted that alternative splicing is a mechanism that is responsible for generating protein complexity at low genetic cost. However, little is known about molecular mechanisms that govern alternative splicing of key apoptotic regulators. Here we investigate the effect of pro-apoptotic stimuli on alternative splicing of Fas mRNA by means of reverse transcription-polymerase chain reaction (RT-PCR). Exposure of U937 cells to etoposide, staurosporine, pacritaxel, or cyclohexamide promoted the appearance of the splice variant, which retained the 152-base-pair intron 5. Pretreatment with calyculin A, an inhibitor of protein phosphatase-1 (PP-1) as well as fumonisin B1, an inhibitor of ceramide synthase, prevented etoposide-induced alternative splicing of Fas mRNA. Our data demonstrate that cross-talk between RNA splicing and signaling pathways through endogenous ceramide synthesis and subsequent phosphatase activation is a mechanism that modifies Fas gene expression at the posttranscriptional level.

Skeletal demineralization is a frequent accompaniment of chronic renal disease and is likely multifactorial. We studied the role of inflammation in stimulating bone resorption in a rat model of glomerulonephritis (GN). Three-week-old Sprague–Dawley rats received either saline (n = 8) or horse spleen apoferritin and lipopolysaccharide (HSA/LPS, n = 8) by intraperitoneal injection, for 6 weeks; afterward, they were observed for either an additional 3 weeks (9 weeks total; n = 4 from each group) or 14 weeks (20 weeks total; n = 4 from each group). Kidneys were analyzed by histomorphometry, and blood and urine samples were obtained to assess bone resorption. Whole-body and isolated femur Dual-Energy X-ray Absorptiometry (DEXA) scans were performed at the end of each study. HSA/LPS-treated animals developed a proliferative GN by 9 weeks, which is associated with proteinuria but no change in renal function. Between 9 and 20 weeks, there was evidence of an increasing interstitial inflammation (1381 ± 67 interstitial cells/mm² at 9 weeks and 1818 ± 28 interstitial cells/mm² at 20 weeks.) There was also evidence of bone resorbing activity as assessed by experimental/control (E/C) < 1.0 at 9 (E/C plasma = 0.66 ± 0.05) and 20 (E/C plasma = 0.52 ± 0.04) weeks. Parathyroid hormone (PTH) levels were normal at all time points, and no differences in bone mineral density were found. This model produces not only an immune glomerular/tubular injury, but also a stimulus for bone resorption that is related to objective measures of inflammation severity. The bone resorption is not caused by renal insufficiency, hyperparathyroidism, or steroid therapy. This model will prove useful in other studies of the role of renal inflammation in skeletal disorders.

In earlier studies, we found that a nonselective β-adrenergic blocking agent, propranolol, facilitated cardiac resuscitation, reduced postresuscitation myocardial ectopy, and improved postresuscitation survival. However, the potential adverse effects and specifically the negative inotropic actions of propranolol prompted our further investigation of the potential value of a non-β-adrenergic inotropic drug, levosimendan, in conjunction with propranolol, for minimizing postresuscitation myocardial dysfunction after successful resuscitation from cardiac arrest. Ventricular fibrillation was induced and untreated for 7 minutes in 15 domestic pigs, which were divided into propranolol, propranolol plus levosimendan, and control groups. Propranolol was administered as a bolus dose of 0.1 mg/kg during cardiac arrest. Electrical defibrillation was attempted after 12 minutes of cardiac arrest including 5 minutes of precordial compression. Levosimendan was administered at 10 minutes after successful resuscitation in a dose of 20 μg/kg and followed by infusion of 0.4 μg/kg/min over the ensuing 220 minutes. Propranolol reduced energies or numbers of defibrillatory shocks and postresuscitation myocardial ectopy, and it improved postresuscitation myocardial dysfunction. When levosimendan was added, postresuscitation myocardial contractile function was improved even more.

Hypertension is a multifactorial disease involving complex interactions between genetic and environmental factors. Development of experimental models of hypertension allowed dissection and isolation of various factors associated with regulation of blood pressure, inheritance of hypertensive traits, and cellular responses to injury. The phenotype-driven approach is taking advantage of selective breeding of animals (primarily rats) that exhibit a desired phenotype, like the useful SHR. Genotype-driven models include transgenic techniques, in which mice are the most successful for selective deletion or overexpression of target genes. Notably, a combination of comparative genomics strategies and phenotypic correlates enhances the utility of hypertension models and their clinical relevance. Indeed, experimental models enabled development of targeted interventions aimed at decreasing not only blood pressure but also target organ injury. Continued utilization of experimental models simulating human hypertension, particularly those that combine other clinically relevant comorbidities like obesity or hypercholesterolemia, may afford development of effective strategies to address this common disease. Nevertheless, a cautious approach is mandatory when experimental findings in these models are extrapolated to human hypertension.