Your search keyword '"Ihumentseva NI"' showing total 3 results

1. Intra- and intermolecular interactions mediated by adaptor protein Ruk/CIN85/SETA

Author

H. Yu. Shuvayeva, Olga Ilnytska, Ivan Gout, Viktor R. Drel, Ya. Ya. Fedyshyn, Vladimir L. Buchman, Ihumentseva Ni, Serhiy Havrylov, Oksana Mayevska, and L. B. Drobot

Subjects

Gene isoform, Scaffold protein, Signal transducing adaptor protein, Biology, Actin cytoskeleton, General Biochemistry, Genetics and Molecular Biology, Receptor tyrosine kinase, Protein–protein interaction, Cell biology, Biochemistry, biology.protein, Клітинна біологія, Cell adhesion, Intracellular

Abstract

Ruk/CIN85l SETA is a member of a separate and evolutionary conserved family of adapter I scaffold proteins implicated in apoptic and receptor tyrosine kinases signalling, rearrangement of actin cytoskeleton and cell adhesion, podocyte and T cell functions. Self-regulation through intra- and intercellular interactions can be supposed for RuklCIN85l SETA as this protein contains SH3 domains and proline-rich sequence, localized within one polypeptide chain, as well as C-terminal coiled-coil region. The ability of Ruk proline-rich motifs to interact with its own SH3 domains in an intramolecular fashion and coiled-coil region to mediate oligomerization between different isoforms was assessed in GST pull down experiments. It was shown that both Ruk SH3A and to a less extent SH3B domains can interact with its own proline-rich sequences in a cooperative manner, while coiled-coil region provide for isoforms oligomerization. SH3C domain appear exerts conformational constraints, imposed on coiled-coil region, restricting the level of oligomerization. We also demonstrated that the ability of exogenous ligands to interact with Ruk polyprotine motifs is changing during the course of TNFa-induced apoptosis of human myelomonocytic W37 cells. RuklCIN85lSETA є представником окремої еволюційно кон­сервативної родини адаптернихі риштувальних білків, залуче­них до апоптичного сигналювання і сигналювання, залежного від рецепторних тирозинових протеїнкіназ, перебудови актинового цитоскелету і адгезії клітин, контролю функцій подоцитів і Т клітин. Оскільки Ruk/CIN85/ SETA містить одно­ часно SH3 домени і багаті на пролін послідовності на рівні одного поліпептидного ланцюга та С-кінцевий суперспіралізований район, можна припустити, що його біологічна ак­тивність регулюється за рахунок внутрішньо- і міжмолеку­лярних взаємодій. Здатність багатих на пролін мотивів Ruk взаємодіяти з власними SH3 доменами та суперспіралізованої ділянки — опосередковувати олігомеризацію різних ізоформ до­сліджували за допомогою методу зв'язування in vitro GST-зли­тих білків. Показано, шр SH3A і, в меншій мірі, SH3B домени Ruk кооперативно взаємодіють із власними багатими на пролін послідовностями, у той час як суперспіралізований район забезпечує олігомеризацію ізоформ. Не виключено при цьому, що SH3C домен чинить конформаційний вплив на суперспіралізований район, обмежуючи, в такий спосіб, ступінь олігомеризації. Нами також встановлено, що здатність екзо­генних лігандів взаємодіяти з багатими на пролін мотивами Ruk координовано змінюється протягом TNFa-індукованого апоптозу мієломоноцитарних клітин лінії U937. Ruk/CIN85l SETA is a member of a separate and evolutionary conserved family of adapter I scaffold proteins implicated in apoptic and receptor tyrosine kinases signalling, rearrangement of actin cytoskeleton and cell adhesion, podocyte and T cell functions. Self-regulation through intra- and intercellular interactions can be supposed for RuklCIN85l SETA as this protein contains SH3 domains and proline-rich sequence, localized within one polypeptide chain, as well as C-terminal coiled-coil region. The ability of Ruk proline-rich motifs to interact with its own SH3 domains in an intramolecular fashion and coiled-coil region to mediate oligomerization between different isoforms was assessed in GST pull down experiments. It was shown that both Ruk SH3A and to a less extent SH3B domains can interact with its own proline-rich sequences in a cooperative manner, while coiled-coil region provide for isoforms oligomerization. SH3C domain appear exerts conformational constraints, imposed on coiled-coil region, restricting the level of oligomerization. We also demonstrated that the ability of exogenous ligands to interact with Ruk polyprotine motifs is changing during the course of TNFa-induced apoptosis of human myelomonocytic W37 cells.

Published

2005

2. [Study of expression of desoxyribonucleases in mammalian cells by a protein renaturation method in polyacrylamide gel].

Author

Kit IuIa, Shuvaieva HIu, Drel' VR, Ihumentseva NI, and Drobot LB

Subjects

3T3 Cells, Animals, Cell Line, Cell Nucleus enzymology, Humans, Mice, Molecular Weight, U937 Cells, Deoxyribonucleases metabolism, Electrophoresis, Polyacrylamide Gel methods, Protein Renaturation

Abstract

Analysis of enzymatic activity in polyacrylamide gel is based on highly effective separation of proteins by SDS-electrophoresis with their subsequent renaturation and detection of enzymatic activity. This method was used to study an expression of DNAases in culturing of cells HEK293, NIH 3T3, U937. We have found that in HEK293 cells the nucleases with molecular weights 47 and 45 kDa were expressed. The localization of DNAases in the cell nuclei was shown as well. Induction of apoptosis in HEK293 cells increase the level of p47 DNAase and causes the expression of novel 50 kDa DNAase. We suggested that those discovered DNAases could take part in apoptotic DNA degradation.

Published

2002

3. [Involvement of regulating the phosphatidylinositol 3-kinase signaling pathway in the process of herbimycin A-induced erythroid cell differentiation in the K562 erythroleukemia cell line].

Author

Il'nyts'ka OM, Mazur IIa, Ihumentseva NI, and Drobot LB

Subjects

Benzoquinones, Erythrocytes cytology, Glutathione Transferase metabolism, Humans, K562 Cells, Lactams, Macrocyclic, Protein Binding, Recombinant Fusion Proteins metabolism, Rifabutin analogs & derivatives, src Homology Domains, Anti-Bacterial Agents pharmacology, Cell Differentiation drug effects, Erythrocytes drug effects, Phosphatidylinositol 3-Kinases metabolism, Quinones pharmacology, Signal Transduction

Abstract

The changes in protein-protein interactions mediated by SH3 domain of the regulatory p85 alpha subunit of phosphatidylinositol 3-kinase (Pl 3-kinase) in the course of herbimycin A-induced erythroid differentiation of the human erythroleukemia cell line K562 have been analyzed. Binding assay was performed in vitro using a recombinant form of SH3 domain of p85 alpha, conjugated with glutathione-S-transferase. pTyr-containing 210, 116, 52 and 46 kDa proteins, binding of which are modulated in differentiated cells, were identified and binding dynamics was analysed. The obtained data on binding the specific pTyr-containing proteins with regulatory subunit of Pl 3-kinase testify about the coordinated control of Pl 3-kinase signalling pathway in the course of herbimycin A-induced K562 cells differentiation.

Published

2001