Your search keyword '"N. N. Skvortsova"' showing total 2 results

1. [The role of the yolk sac in copper metabolism during rat embryogenesis]

Author

L V, Puchkova, C A, Zhiguleva, S V, Mokshina, N K, Bichevaia, N A, Platonova, N N, Skvortsova, L K, Sasina, N V, Tsymbalenko, N A, Chebotar', and V S, Gaitshoki

Subjects

Adenosine Triphosphatases, Recombinant Fusion Proteins, Molecular Sequence Data, Ceruloplasmin, Rats, Copper-Transporting ATPases, Pregnancy, Animals, Female, Amino Acid Sequence, Carrier Proteins, Cation Transport Proteins, Copper, Yolk Sac

Abstract

Using the immunoblotting method, the synthesis of two copper-transporting P1-type ATPases, ATP7A (a candidate for the product of the Menkes disease gene) and ATP7B (presumed product of the Wilson disease gene), in the yolk sac cells of rat embryos at days 11 and 20 of embryogenesis was demonstrated. Concomitantly, yolk sac cells produce ceruloplasmin, a soluble copper-transporting glycoprotein, a proportion of which in secreted proteins progressively diminishes, attaining 5.2% at day 11 and 3.1% at day 20 of development. At different stages of embryogenesis, yolk sac cells synthesize two molecular forms of [14]C-ceruloplasmin, one of which is secreted towards the embryo, whereas the other, towards the decidual membrane. Two forms of ceruloplasmin secreted in polar directions differ in the rate of secretion. The role of the yolk sac as a key organ controlling the delivery and secretion of copper in the embryo during the postimplantation period is discussed.

Published

2001

2. [A comparative study of the transport dynamics of the peptide moiety of the milk ceruloplasmin molecule in the body of rats with embryonic and adult types of copper metabolism]

Author

L V, Puchkova, T D, Aleĭnikova, N K, Bichevaia, S A, Mokshina, N A, Platonova, L K, Sasina, N N, Skvortsova, N V, Tsymbalenko, N A, Chebotar', and V S, Gaĭtskhoki

Subjects

Time Factors, Ceruloplasmin, Biological Transport, Embryo, Mammalian, Rats, Iodine Radioisotopes, Milk, Animals, Newborn, Animals, Humans, Female, Tissue Distribution, Peptides, Copper

Abstract

In chase experiments, we followed the distribution of [125I]-ceruloplasmin prepared from human breast milk orally administered to young rats. Experiments were conducted using six-day-old rat pups (the embryonic type of copper metabolism) or 35-day-old ones (the adult type of copper metabolism). Using the technique of rocket immunoelectrophoresis, we have demonstrated that in six-day-old rats [125I]-ceruloplasmin was transferred from the gastrointestinal tract to the bloodstream and could be detected there over a period of 4 h. In 35-day-old rats, milk ceruloplasmin was digested in the upper part of the intestinal tract. The dynamic aspects of the distribution of labeled milk ceruloplasmin in the body of six-day old rats over a period of 4 h point out that, under the conditions of embryonic copper metabolism, it can serve as a transporter of copper ions to extrahepatic organs. We discuss the role of milk ceruloplasmin in copper metabolism in mammals during the neonatal period.

Published

1999