Your search keyword '"Ignatova AA"' showing total 2 results

1. Comparison of platelet proteomic profiles between children and adults reveals origins of functional differences.

Author

Garzon Dasgupta AK, Martyanov AA, Ignatova AA, Zgoda VG, Novichkova GA, Panteleev MA, and Sveshnikova AN

Subjects

Adult, Adolescent, Humans, Child, Blood Platelets metabolism, Hemorrhage, Hemostasis, Calcium metabolism, Proteomics

Abstract

Background: Platelets are blood cells responsible for the prevention of blood loss upon vessel wall disruption. It has been demonstrated that platelet functioning differs significantly between adult and pediatric donors. This study aimed to identify potential differences between the protein composition of platelets of pediatric, adolescent, and adult donors., Methods: Platelet functional testing was conducted with live cell flow cytometry. Using a straightforward approach to platelet washing based on the sequential platelets centrifugation-resuspension, we were able to obtain stable and robust proteomics results, which corresponded to previously published data., Results: We have identified that pediatric donors' platelets have increased amounts of proteins, responsible for mitochondrial activity, proteasome activity, and vesicle transport. Flow cytometry analysis of platelet intracellular signaling and functional responses revealed that platelets of the pediatric donors have diminished granule secretion and increased quiescent platelet calcium concentration and decreased calcium mobilization in response to ADP. We could explain the observed changes in calcium responses by the increased mitochondria protein content, and the changes in granule secretion could be explained by the differences in vesicle transport protein content., Conclusions: Therefore, we can conclude that the age-dependence of platelet functional responses originates from the difference in platelet protein content., Impact: Platelets of infants are known to functionally differ from the platelet of adult donors, although the longevity and persistivity of these differences are debatable. Pediatric donor platelets have enhanced amounts of mitochondrial, proteasomal, and vesicle transport proteins. Platelets of the pediatric donors had increased cytosolic calcium in the resting state, what is explained by the increased numbers of mitochondrial proteins. Infants had decreased platelet granule release, which resolved upon adolescence. Thus, platelets of the infants should be assessed differently from adult platelets. Differences in platelet proteomic contents persisted in adolescent groups, yet, no significant differences in platelet function were observed., (© 2023. The Author(s), under exclusive licence to the International Pediatric Research Foundation, Inc.)

Published

2024

2. Impaired platelet activity and hypercoagulation in healthy term and moderately preterm newborns during the early neonatal period.

Author

Koltsova EM, Balashova EN, Ignatova AA, Poletaev AV, Polokhov DM, Kuprash AD, Ionov OV, Kirtbaya AR, Lenyushkina AA, Timofeeva LA, Zubkov VV, Degtyarev DN, Sukhikh GT, Ataullakhanov FI, Panteleev MA, and Balandina AN

Subjects

Biomarkers blood, Female, Gestational Age, Humans, Infant, Newborn, Male, P-Selectin blood, Phosphatidylserines blood, Term Birth, Thrombophilia diagnosis, Blood Coagulation, Blood Platelets metabolism, Infant, Premature blood, Platelet Activation, Premature Birth, Thrombophilia blood

Abstract

Background: Preterm newborns are at thrombohemorrhagic risk during the early neonatal period. Taking into account the lack of informative tools for the laboratory diagnosis of hemostasis disorders in newborns, our goal was to determine the baseline values of thrombodynamics and platelet functional activity in healthy term and moderately preterm newborns during the early neonatal period future potential clinical use of these tests., Methods: Coagulation was assessed using an integral assay of thrombodynamics and standard coagulation assays, and platelet functional activity was estimated by flow cytometry., Results: Hypercoagulation of newborns, represented by a significantly higher clot growth velocity and the presence of spontaneous clots in the thrombodynamics, was combined with platelet hypoactivity. Granule release, phosphatidylserine exposure, and the ability to change shape upon activation were decreased in the platelets of moderately preterm newborns. The platelet function remained at the same level over the first four days of life, whereas the hypercoagulation became less pronounced., Conclusions: The hemostasis of newborns is characterized by hypercoagulation combined with reduced platelet functional activity. Moderately preterm and term newborns do not differ in the parameters of coagulation, while some of the functional responses of platelets are lower in moderately preterm newborns than in term.

Published

2019