It’s a knockout: CCN3 suppresses neointimal thickening

The role of CCN proteins in vivo is only just becoming understood. A prototypical member of the CCN family, CCN3 suppresses proliferation. In a study in press, Shimoyama and colleagues show that mice lacking CCN3 have a hyperproliferative response to vascular injury. These data, along with other recent observations, suggest that CCN3 may represent a novel therapy for hyperproliferative diseases.     

Differential effect of buffer on the spin trapping of nitric oxide by iron chelates.

Nitric oxide synthase (NOS) generates nitric oxide (NO*) by the oxidation of l-arginine. Spin trapping in combination with electron paramagnetic resonance (EPR) spectroscopy using ferro-chelates is considered one of the best methods to detect NO* in real time and at its site of generation. The spin trapping of NO* from isolated NOS I oxidation of L-arginine by ferro-N-dithiocarboxysarcosine (Fe(DTCS)2) and ferro-N-methyl-d-glucamide dithiocarbamate (Fe(MGD)2) in different buffers was investigated. We detected NO-Fe(DTCS)2, a nitrosyl complex, resulting from the reaction of NO* and Fe(DTCS)2, in phosphate buffer. However, Hepes and Tris buffers did not allow formation of NO-Fe(DTCS)2. Instead, both of these buffers reacted with Fe2+, generating sparingly soluble complexes in the absence of molecular oxygen. Fe(DTCS)2 and Fe(MGD)2 were found to inhibit, to a small degree, NOS I activity with a greater effect observed with Fe(MGD)2. In contrast, Fe(MGD)2 was more efficient at spin trapping NO* from the lipopolysaccharide-activated macrophage cell line RAW264.7 than was Fe(DTCS)2. Data suggested that Fe(DTCS)2 and Fe(MGD)2 are efficient at spin trapping NO* but their maximal efficiency may be affected by experimental conditions.     

A model for glucose metabolism in energy-sufficient bacterial cultures

Summary A model for uncoupled glucose uptake under energy-sufficient conditions is presented. The model is derived from glucose catabolic pathways. The resulting model predicts specific glucose uptake rate as a function of both growth rate and extracellular glucose concentration. This prediction is consistent with reported literature data.     

Is the binding of magnesium (II) to calmodulin significant? An investigation by magnesium-25 nuclear magnetic resonance

Previous reports on the interaction between calmodulin (CaM) and Mg2+ range from no binding to a binding constant of 10(4) M-1 [for a summary, see Cox, J. A., Comte, M., Malnoe, A., Berger, D., & Stein, E. A. (1984) Met. Ions Biol. Syst. 17, 215-273]. In order to resolve the controversy, we used 25Mg NMR to study the binding of Mg2+ to apo-CaM, CaM.Ca2(2)+ (in which sites III and IV are occupied by Ca2+), CaM.La2(3)+ (in which sites I and II are occupied by La3+), and the two tryptic fragments of calmodulin, TR1C (containing sites I and II of CaM) and TR2C (containing sites III and IV of CaM). In each system, a "titration set" and a "temperature set" were obtained, and the spectral data were analyzed by total band-shape analysis to calculate the association constant (Ka) and off-rate (koff). As in the case of Ca2+ binding, sites I and II and sites III and IV were treated as two sets of equivalent sites, and a Ca2+/Mg2+ competition experiment suggested that Mg2+ competes with Ca2+ for the same sites. For both CaM.Ca2(2)+ and TR1C, moderately large Ka (2000 and 3500 M-1, respectively) and moderate off-rates (koff = 2300 and 3000 s-1, respectively, at 25 degrees C) were observed. For both CaM.La2(3)+ and TR2C, binding of Mg2+ was weaker by a factor of ca. 10 (Ka = 300 and 200 M-1, respectively) while the off-rates were also moderate (koff = 3500 and 2200 s-1, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)     

Monoclonal antibodies to type D retrovirus (SRV-2)

Monoclonal antibodies (MoAbs) to the major gag core protein p27 and a viral protein p44 of type D retrovirus (SRV-2) were produced and used in the detection of SRV-2 antigens in infected Raji cells and in tissues from macaques with simian acquired immunodeficiency syndrome (SAIDS) and retroperitoneal fibromatosis (RF). Anti-p44 MoAb showed inhibition of syncytium formation by both SRV-1- and SRV-2-infected Raji cells.     

Physiological characteristics of glutamine synthetases I and II of Frankia sp. strain CpI1

Frankia sp. strain CpI1 has two glutamine synthetases designated GSI and GSII. Biosynthetic activities of both GSI and GSII were strongly inhibited by ADP and AMP. Alanine, aspartate, glycine and serine inhibited both GSI and GSII activities, whereas asparagine and lysine inhibited only slightly. Glutamine inhibited GSII but did not affect GSI. Since GSII is more heat labile than GSI, their relative heat stabilities can be used to determine their contribution to total GS activity. In cells grown on ammonia and on glutamine as sole combined-nitrogen sources most GS activity detected in crude extracts was due to GSI. In cells transferred to glutamate, GSI accounted for all GS activity in the first 15 h and then heat labile GSII was induced and increased to account for 40% of total GS activity within 50 h. Transfer of N₂-fixing cells to ammonia-containing medium led to a rapid decrease of GSII and a slow increase of GSI activity within 24 h. Conversely, when ammonia-grown cells were transferred to combined nitrogen-free medium, GSI activity gradually decreased and GSII increased before total activity leveled off in 50 h. GSII appears to be an ammonia-assimilating enzyme specifically synthesized during perceived N-starvation of Frankia cells.