Monoclonal antibodies against human erythrocyte band 3 protein. Localization of proteolytic cleavage sites and stilbenedisulfonate-binding lysine residues

Monoclonal antibodies against the membrane domain of human red blood cell band 3 protein have been prepared and used in topographical studies of the arrangement of the polypeptide in the membrane. One of the antibodies binds to a site near the N terminus of the membrane domain; another binds to a site near the C terminus. The latter has been used to localize a site of intracellular trypsin digestion. The cleavage site, in human band 3, corresponds to Lys-761 in mouse band 3; the site is 168 residues from the C terminus of the protein. This is the first intracellular site in the membrane domain (other than the N terminus) that has been localized in the primary structure. The antibody that binds to the N-terminal portion of the membrane domain has been used to identify a new S-cyanylation cleavage site about 7,000 daltons from the C terminus. Proteolysis/cross-linking experiments with the stilbenedisulfonate derivative H2DIDS (4,4'-diisothiocyanostilbene-2,2'-disulfonate) reveal that one end of the H2DIDS reacts covalently with a lysine residue that is between about 70 and 168 residues from the C terminus of band 3. In addition to placing restrictions on the location of the H2DIDS-binding lysine, these studies provide direct evidence that the C-terminal 28,000-dalton papain fragment crosses the membrane at least three times. With previous data on the remainder of the membrane domain, there is now direct evidence that the band 3 polypeptide crosses the membrane at least eight times.

Augmentin treatment of bacterial infections in hospitalised patients

Twenty-five hospitalised patients were evaluated after treatment with oral augmentin (amoxycillin and clavulanic acid). Ten of 14 with respiratory tract, four of eight with urinary tract and five of five with miscellaneous infections (two with osteomyelitis, two typhoid carriers and one with typhoid fever) were cured. Three of four infections caused by amoxycillin resistant bacteria were cured. The drug was well tolerated even at relatively high clavulanic acid doses up to 1.0 g/day. Augmentin is a potentially useful antibiotic combination.

Expornitic of avian pox in a zoo

During a 6-week period at the San Diego Zoo, avian pox occurred in 9 pheasants representing 5 species. Lesions were limited to facial skin and consisted of epithelial cell hyperplasia, secondary inflammatory changes, and intracytoplasmic eosinophilic inclusion bodies which, by electron microscopy, were shown to contain pox virus. The disease was self-limiting in 7 pheasants, but 2 pheasants died. Free-ranging Indian red junglefowl were implicated as the source of the infection.

Long-term effect of low dietary calcium:phosphate ratio on the skeleton of Cebus albifrons monkeys

Wildcaught cinnamon ringtail monkeys, Cebus albifrons, were fed diets with Ca:P ratios of 1:4 1:2.1 1:0,4, and 1:0.5 for 3 to 88 months. Monkeys fed the diet with Ca:P ratios of 1:4 and 1:21 C ratios similar to that of human diets) had minor microscopic changes suggestive of osteoporosis when compared to other species of animals. The changes were not detected by conventional or magnification radiography or by 125I photon absorptiometry. These findings are in in striking contrast to studies in other animals where similar diets resulted in significant bone resorption within 6 weeks to 6 months. This study suggests that the non-human primate may be a more appropriate animal model for the investigation of nutritional osteopenia in man in whom bone resorption appears to be a slowly progressive process. In view of our findings, studies using lower animal species must be re-evaluated with respect to the hypothesis that high dietary phosphate is a significant etiologic factor in senile osteoporosis in man.

Nutritional osteodystrophy in captive green iguanas (Iguana iguana)

Captive lizards fed a variety of vegetarian and carnivorous diets frequently develop severe nutritional osteodystrophy. Five hatchling iguanas which were captive for 5 months and fed a diet low in calcium and phosphorus developed clinical signs and lesions typical of nutritional osteodystrophy in captive lizards. They had tetany with severe osteoporosis, pathologic fractures, and cartilaginous diaphyseal enlargements of long bones which either were associated with fractures or with intact bones. Hatchling and juvenile iguanas fed a similar diet low in calcium (0.1%) and phosphorus (0.2%) under experimental conditions developed hypocalcemia, tetany, osteoporosis with but adequate in phosphorus (1.1%) developed progressive hypocalcemia and severe osteopososis with pathologic fractures. Control iguanas fed a diet with adequate calcium (2.7%) and phosphours (1.1%) had well mineralized bones with wide cortices and thick metaphyseal trabeculae. Iguanas fed low calcium experimental diets whether low or adequate in phosphorus developed hypocalcemia with compensatory secondary hyperparathyroidism resulting in severe osteodystrophy similar to that reported in captive lizards.

Fine structural changes of bone cells in experimental nutritional osteodystrophy of green iguanas

Lizards, especially iguanids and varanids, frequently develop nutritional osteodystrophy in captivity, but its pathogenesis is incompletely understood. Green iguanas fed an experimental diet low in calcium (0.2%) and adequate in phosphorus (1.1%) developed severe osteoporosis characterized by flattened inactive osteoblasts, marked resorption of endosteal bone by large multinucleated osteoclasts, and pronounced resorption of cortical bone by osteocytic osteolysis. Iguanas fed an experimental diet low in both calcium (0.1%) and phosphorus (0.2%) developed osteoporosis with osteomalacia characterized by large active osteoblasts overlying wide osteoid seams, marked osteoclastic resorption of endosteal bone, and large osteocytic lacunae which had a prominent layer of osteoid. Osteocytes in iguanas fed the low calcium diets were small in relation to the size of their lacuanae and contained abundant microtubules, microfilaments and mitochondria but a paucity of rough endoplasmic reticulum. Mean ash content of tibias from iguanas fed the low calcium diets was lower, particularly in iguanas that developed severe oseomalacia, than in iguanas fed the control diet (2.7% calcium, 1.1% phosphorus). The ultrastructural evidence suggesting active bone formation, osteoclastic resorption, and osteocytic osteolysis seen in control iguanas was consistent with that of a young growing animal. The results of this investigation demonstrated that experimental iguanas fed diets low in calcium developed hypocalcemia and compensatory hyperparathyroidism resulting in progressive osteoporosis due to osteoclastic and osteocytic osteolysis.