Identification of a cytoskeleton-associated glycoprotein from isolated microvilli of a mammary ascites tumor

Microvilli isolated from MAT-C1 13762 ascites tumor cells were extracted with Triton X-100 in phosphate-buffered saline (PBS) to yield cytoskeletal residues. Analysis of the residues by two-dimensional isoelectric focusing-dodecyl sulfate electrophoresis and silver staining suggested that one of the major components is a glycoprotein (CAG). Neuraminidase treatments and glucosamine labeling demonstrated that CAG is a glycoprotein, and lactoperoxidase iodination showed its presence at the microvillar surface. DNase treatments and myosin affinity analysis suggested an association between CAG and the microvillar microfilaments. Thus, CAG has the properties expected of a transmembrane-linking molecule connecting the cell surface to the cytoskeleton.     

Effect of castration on hypothalamic testosterone metabolism in the male rat

In vitro studies were performed of hypothalamic testosterone (T) metabolism 30 days after castration of adult male rats. No changes were seen in T conversion into dihydrotesterone and estrogens in the castrated rats. Plasma T levels were decreased while plasma estradiol concentrations did not differ from those of intact controls. It was suggested that the hypothalamic T metabolism probably is not androgen dependent.     

Training vervet monkeys to avoid electric wires: Is there evidence for social learning?

Before being released into a large park enclosed by an electric fence, a wild‐caught vervet group (Chlorocebus aethiops) had to learn to avoid electrified wires in a smaller cage. During this training, we observed the group continuously for 12 consecutive days to investigate if social learning was involved in the learning process. Results showed that all monkeys received an electric shock (average=2.5 shocks/individual). Most contacts with the wires occurred during the first few days of training and the vervets were never observed to come into contact with the electric fence in the 18 months after their release into the large park. This suggests that the vervets learned to avoid the electrified wires by trial‐and‐error learning. It is possible that local and stimulus enhancement may have played a role, but we could not carry out the necessary control experiments to quantify the role of these components. Observational conditioning of fear can be ruled out, however, because the vervets did not show fearful behavior toward the wires. Zoo Biol 24:145–151, 2005. © 2005 Wiley‐Liss, Inc.     

Signaling,mitogenesis and the cytoskeleton: Where the action is

Stimulation of mitogenesis by the epidermal growth factor (EGF) operates through a pathway involving the receptor, the small G-protein Ras and protein kinases of the MAP kinase cascade. It is proposed that two of the critical steps of that pathway utilize localization of components to the plasma membrane where Ras is located: recruitment of the nucleotide exchange protein Sos to the phosphorylated EGF receptor via a complex with the SH2/SH3-containing protein Grb2 and recruitment of the protein kinase Raf to activated Ras. Moreover, it is then proposed that Raf associates with the cytoskeleton at the membrane as it is being activated. Other signaling elements, including class I receptor kinases, nonreceptor tyrosine kinases and tyrosine phosphatases, are known to function at specific cellular sites. These observations have led us to propose that localization of signaling components, and particularly sites at membrane-microfilament interfaces, play critical roles in cellular regulation.