Collagen and elastin synthesis in the developing chick aorta

Thoracic aortas from 8- to 18-day embryonic chicks were incubated in vitro for 30 min with [³H]glycine and the newly synthesized, labeled proteins were subjected to polyacrylamide gel electrophoresis in sodium dodecyl sulfate. The gels were fractionated and the incorporation of label into procollagen (125,000 M_r) and tropoelastin (70,000 M_r) was estimated by summation of the radioactivity found in the appropriate regions of the gel. The analyses showed that at Day 8 approximately 14% of the incorporated [³H]glycine was found in procollagen and 22% in tropoelastin. In the following 6 days of development, there was a significant decline in the relative incorporation into procollagen and an increase into tropoelastin so that at Days 14–18 less than 10% of the label was found in collagen and 40% was now found in tropoelastin. Since glucocorticoids have been shown to alter the rate of synthesis of other proteins in the developing chick, 150 μg of hydrocortisone was injected into 8-day eggs and 24 h later the aortas were incubated and treated as described above. The pattern of protein synthesis exhibited by the hormone-treated aortas resembled that of 14- to 18-day embryos. Furthermore, incubation of 8-day aortas with 10^?8m hydrocortisone for 24 h produced a significant increase in the rate of elastin synthesis relative to that of other proteins. These results demonstrate that collagen and elastin synthesis vary during development of the chick aorta and they suggest that glucocorticoids may be involved in the control of their synthesis.     

Collagen in developing chick muscle in vivo and in vitro

Because of the known role of collagen in chick skeletal muscle differentiation the collagen synthesized by embryonic chick muscle was studied. The major collagen synthesized by this muscle was found to be type I collagen. In addition, the effectiveness of types I, II, III and IV collagens in promoting myoblast fusion in vitro was compared. These collagens were found to be equally effective as in vitro substrates.     

Some basic chemical components of the cerebrospinal fluid in developing chick embryos.

The development of the chloride ion, glucose and total protein concentration was investigated in the cerebrospinal fluid of 11- to 21-day-old chick embryos and compared with their development in the blood plasma. Developmental changes in the chloride concentration in the plasma and CSF were very small, but it was always higher in the CSF than in the plasma. The plasma/CSF ratio fell during development, from 0.906 in 11-day-old embryos to 0.778 at the end of incubation. The CSF glucose concentration fell up to the 19th day of incubation, but a significant increase was recorded shortly before hatching. The plasma glucose concentration rose throughout the whole of the investigated period of embryogenesis. Up to the 19th day the P/CSF ratio rose from 1.59 to 4.05 and in 21-day-old embryos fell to 2.47. The developmental increase in the plasma total protein concentration was accompanied by the reverse process in the CSF. During the second half of incubation the P/CSF ratio rose from 1.88 to 7.9 Calculation of total osmolarity from the Na+, K+, Ca2+, Cl- and glucose concentration showed permanent hyperosmolarity of the CSF compared with the plasma. The P/CSF ratio was maintained within limits of 0.94 to 0.98.     

5'-nucleotidase activity in developing chick pectoral muscle.

The activity of the plasma membrane enzyme 5′-nucleotidase varies dramatically during the embryonic development of chick pectoral muscle. The specific activity is greatest at early stages of differentiation (8-day embryos), falls to a minimum on days 12–14, then rises again in older embryos. In cultured muscle cells obtained from embryonic chick muscle the 5′-nucleotidase activity is essentially absent. Muscle cells grown in the presence of bromodeoxyuridine, an inhibitor of muscle differentiation, contain enhanced levels of 5′-nucleotidase activity. These results indicate that 5′-nucleotidase may be absent in muscle fibers, but present in other cells of muscle tissue.     

Streptococcus pneumoniae multiplication in the allantoic cavity of developing chick embryos

The possibility of the active multiplication of S. pneumoniae (serotypes 1, 3, 6 and 19) in the allantoic cavity of chick embryos has been demonstrated. This multiplication is accompanied by the development of characteristic changes whose intensity and time of manifestation have been found to depend on the infective dose and the age of the embryo. The accumulation of S. pneumoniae in the allantoic cavity of chick embryos in the absence of visible changes in the biological properties of the infective agent after 5 successive subcultures makes it possible to recommend chick embryos as a model for the study of experimental pneumococcal infection.     

Ultrastructure of muscle fibers and cells synthesizing DNA in lymph hearts of developing frogs and chick embryos

Summary The ultrastructure of striated muscle fibers and ³H-thymidine (³HTdr)-labeled cells adjacent to them in the lymph hearts of larvae of Rana temporaria, yearling frogs, and 9- to 13-day-old chick embryos was studied by use of electron-microscopic autoradiography. A comparatively high level of differentiation of lymph-heart muscle fibers was observed not only in yearling frogs but also in larvae. Myosatellites occurred at all stages of development. No mitoses were found in muscle fibers. In 9- to 13-day-old chick embryos the myofibers of lymph hearts were somewhat less differentiated than those of the larvae and yearling frogs. Differentiating sarcomeres were often seen in the sarcoplasm of myofibers of chick embryos. The analysis of the ultrastructure of ³HTdr-incorporating cells shows that 2–4 h after the single ³HTdr administration only mononucleated cells devoid of myofilaments are commonly labeled both in tadpoles and chick embryos. When fixation is postponed by 48–70 h, myonuclei frequently become labeled. Thus, the data obtained support the evidence that proliferation and differentiation processes in the developing muscle tissue of the lymph heart of both species studied are mutually exclusive, similar to the situation in differentiating vertebrate skeletal muscle.     

Collagen fibril morphology in developing chick metatarsal tendon: 2. Electron microscope studies

Transverse section of embryonic chick metatarsal tendons ranging in age from 11 days to 18 days fetal were examined by electron microscopy to determine both the diameters and the lateral arrangements of the cylindrical collagen fibrils. In early developmental stages, from 11 days to 14 days fetal, sharp unimodal distributions of diameters centred near 32 or 40 nm were observed, but increasingly heterogeneous diameters were seen with increasing age. The heterogeneous diameter distributions were not uniform, but showed discrete populations of preferred diameters. The centre-to-centre distance separating the fibrils in the early developmental stages was about twice the fibril diameter and constant with age. Comparison of X-ray diffraction results with these observations indicated that the saptial relationships of the structures are preserved during the preparative procedures for electron microscopy, but that a transverse shrinkage of 25–30% had occurred relative to the wet dimension.     

Lead-induced lipid peroxidation and antioxidant defense components of developing chick embryos.

Administration of lead (1.25 and 2.5 mumol/kg egg weight) to 14-day-old chick embryos enhanced the level of lipid peroxides (LPO) in tissues of liver, brain, and heart. Accumulation of LPO was maximum at 9 h after treatment with lead and returned to normal level by 72 h. Further, we have studied the levels of glutathione-S-transferase (GST), glutathione reductase (GR), glutathione peroxidase (GPx), superoxide dismutase (SOD), and catalase. At 9 h posttreatment, the hepatic GR was reduced significantly with the induction of GST and considerable depletion of GSH. However, in brain and heart, both GR and GST activities were unaltered with significant reduction of GSH. Further, an increase of non-Se-dependent GPx and SOD activities were observed in liver, brain, and heart. Similarly, at 72 h, although the GPx activity was found decreased in liver and brain, the GST, catalase, and SOD activities were significantly increased in all the three tissues alike, suggesting tissue-specific changes of antioxidant defense components in response to lead treatment. Our results suggests that the elevated levels of GST, SOD, and catalase at 72 h were successful in bringing LPO levels back to normal.     

Collagen fibril morphology in developing chick metatarsal tendoms: 1. X-ray diffraction studies

The low angle equatorial X-ray diffraction ($\text{R ? 30 μ}\text{m}{}^{\mathrm{?1}}$) from hydrated embryonic chick metatarsal tendon contains minima and maxima that are not seen in mature tendons. This diffraction derives from the disordered array of parallel, cylindrical fibrils of collagen of small, uniform diameter that comprise the major part of this tissue. Comparison of the positions of the minima and maxima with those expected from an array of cylinders allows estimation of the mean diameter of the cylinders and the average centre-to-centre nearest neighbour separation. It was found that in the age range from 13 to 19 days fetal, the mean diameter increased from ～ 46 to ～ 58 nm, whereas the mean nearest neighbour separation remained constant at ～ 90 nm. Detailed analysis of the X-ray intensity profile of a 17 day fetal tendon indicated the presence of a paucidisperse distribution of fibril diameters with two or more discrete populations of preferred diameters separated by 10 to 12 nm.