Clinical evaluation of technetium-99m-L,L-ethylenedicysteine in patients with chronic renal failure

1. Effects of feeding condition from birth were examined on the sensitivity of neuromuscular transmission to d-tubocurarine (dTc) in vitro in male mice of the ddY strain. 2. Mice were trained to climb two separated cylindrical steel-wire tubes for feeding and drinking, respectively, from 16 days of age. Some mice were conventionally fed, from 99 days of age. Nerve-muscle preparations were made from the left phrenic nerve diaphragm muscle (DPH), the sciatic nerve soleus muscle (SOL), and the sciatic nerve extensor digitorum longus muscle (EDL) of 99-day-old and 155-day-old mice. The nerve trunk was electrically activated with trains of four pulses and tetanic pulses. 3. The sensitivity to the effects of dTc decreased in the order EDL, SOL, and DPH. This result held true in all mice tested. 4. This sensitivity was significantly potentiated by the compulsory movement. 5. The supersensitivity remained even when mice were conventionally fed after 99 days of age. 6. The compulsion rendered EDL antifatigable on tetanic stimulation. This property was also retained after a return to conventional feeding. 7. These results suggest that the effects of feeding condition from birth might remain on neuromuscular functions after termination of the conditioning.     

The murine Tcl1 oncogene: embryonic and lymphoid cell expression

In human leukemias and lymphomas nonrandom chromosomal rearrangements cause changes in cell growth and/or survival in such a way as to promote malignancy. The detailed study of the biochemical and genetic pathways altered in human cancer requires the identification or development of models to allow the study and manipulation of cancer gene function. Recently, the breakpoint gene TCL1, involved in chromosome translocations observed mostly in mature T-cell proliferations and chronic lymphocytic leukemias (CLL), was isolated and characterized, and showed to be part of a new gene family of proteins involved in these tumors. The murine Tcl1 gene, is similar in sequence to the murine and human MTCP1 gene also involved in T cell leukemias. The murine Tcl1 gene was shown to reside on mouse chromosome 12 in a region syntenic to human chromosome 14. Furthermore, we show that the murine Tcl1 gene is expressed early in mouse embryonic development and demonstrates expression in fetal hematopoietic organs as well as in immature T and B cells. Characterization of the murine Tcl1 gene will help in developing a mouse model of CLL and would provide the best opportunity to study and decipher the role of TCL1 in malignant transformation.     

Neurohormonal activity in heart insufficiency

The maintenance of cardiac pumping ability in the presence of a primary disturbance of myocardial contractility and/or an excessive haemodynamic strain on the heart is dependent on several compensatory mechanisms. Particular attention has formerly been paid to the importance of the Frank-Starling mechanism and cardiac hypertrophy and dilatation in maintaining a blood supply sufficient to cover the metabolic needs of various tissues in heart failure. In recent years, however, it has been found that certain neurohormonal systems (the sympathetic nervous system, the renin-angiotensin-aldosterone system, atrial natriuretic peptide and several locally acting vaso-active substances) undergo considerable changes according to the degree of heart failure. These compensatory mechanisms support the circulation wholly or partially in acute heart failure, however sustained neurohormonal activation may be harmful in chronic heart failure, where several neurohormonal factors may be activated to ill-effect. The most significant neurohormonal systems and their importance in heart failure are reviewed on the basis of the available literature.