Орлов Евгений Евгеньевич


Аспирант (Лаборатория молекулярных основ эмбриогенеза)

Тел.: +7 (495) 336-86-11

Эл. почта: orlov89e@gmail.com

Образование

Период обученияСтрана, городУчебное заведениеДополнительная информация
2017 Россия, Москва МГУ им. М.В. Ломоносова

Избранные публикации

  1. Eroshkin F.M., Nesterenko A.M., Borodulin A.V., Martynova N.Y., Ermakova G.V., Gyoeva F.K., Orlov E.E., Belogurov A.A. Jr, Lukyanov K.A., Bayramov A.V., Zaraisky A.G. (2016). Noggin4 is a long-range inhibitor of Wnt8 signalling that regulates head development in Xenopus laevis. Sci Rep 6, 23049 [+]

    Noggin4 is a Noggin family secreted protein whose molecular and physiological functions remain unknown. In this study, we demonstrate that in contrast to other Noggins, Xenopus laevis Noggin4 cannot antagonise BMP signalling; instead, it specifically binds to Wnt8 and inhibits the Wnt/β -catenin pathway. Live imaging demonstrated that Noggin4 diffusivity in embryonic tissues significantly exceeded that of other Noggins. Using the Fluorescence Recovery After Photobleaching (FRAP) assay and mathematical modelling, we directly estimated the affinity of Noggin4 for Wnt8 in living embryos and determined that Noggin4 fine-tune the Wnt8 posterior-to-anterior gradient. Our results suggest a role for Noggin4 as a unique, freely diffusing, long-range inhibitor of canonical Wnt signalling, thus explaining its ability to promote head development.

    ID:1419
  2. Nesterenko A.M., Orlov E.E., Ermakova G.V., Ivanov I.A., Semenyuk P.I., Orlov V.N., Martynova N.Y., Zaraisky A.G. (2015). Affinity of the heparin binding motif of Noggin1 to heparan sulfate and its visualization in the embryonic tissues. Biochem. Biophys. Res. Commun. 468 (1-2), 331–6 [+]

    Heparin binding motifs were found in many secreted proteins and it was suggested that they are responsible for retardation of the protein diffusion within the intercellular space due to the binding to heparan sulfate proteoglycanes (HSPG). Here we used synthetic FITC labeled heparin binding motif (HBM peptide) of the Xenopus laevis secreted BMP inhibitor Noggin1 to study its diffusion along the surface of the heparin beads by FRAP method. As a result, we have found out that diffusivity of HBM-labeled FITC was indeed much lesser than those predicted by theoretical calculations even for whole protein of the Noggin size. We also compared by isothermal titration calorimetry the binding affinity of HBM and the control oligolysine peptide to several natural polyanions including heparan sulfate (HS), heparin, the bacterial dextran sulfate and salmon sperm DNA, and demonstrated that HBM significantly exceeds oligolysine peptide in the affinity to HS, heparin and DNA. By contrast, oligolysine peptide bound with higher affinity to dextran sulfate. We speculate that such a difference may ensure specificity of the morphogen binding to HSPG and could be explained by steric constrains imposed by different distribution of the negative charges along a given polymeric molecule. Finally, by using EGFP-HBM recombinant protein we have visualized the natural pattern of the Noggin1 binding sites within the X. laevis gastrula and demonstrated that these sites forms a dorsal-ventral concentration gradient, with a maximum in the dorsal blastopore lip. In sum, our data provide a quantitative basis for modeling the process of Noggin1 diffusion in embryonic tissues, considering its interaction with HSPG.

    ID:1364