Methionine gamma lyase fused with S3 domain VGF forms octamers and adheres to tumor cells via binding to EGFR

N.A. Bondarev; D.F. Bagaeva; S.V. Bazhenov; M.M. Buben; N.V. Bulushova; Yury L. Ryzhykau; Ivan Okhrimenko; Yu.A. Zagryadskaya; Ivan Maslov; N.Yu. Anisimova; D.V. Sokolova; Alexander I. Kuklin; V.S. Pokrovsky; I.V. Manukhov

doi:10.1016/j.bbrc.2023.149319

Methionine gamma lyase fused with S3 domain VGF forms octamers and adheres to tumor cells via binding to EGFR

N.A. Bondarev, D.F. Bagaeva, S.V. Bazhenov, M.M. Buben, N.V. Bulushova, Yury L. Ryzhykau, Ivan Okhrimenko, Yu.A. Zagryadskaya , Ivan Maslov, N.Yu. Anisimova, D.V. Sokolova, Alexander I. Kuklin, V.S. Pokrovsky, I.V. Manukhov^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

4 Citations (Scopus)

Abstract

Methods for targeting enzymes exhibiting anticancer properties, such as methionine γ-lyase (MGL), have not yet been sufficiently developed. Here, we present the data describing the physico-chemical properties and cytotoxic effect of fusion protein MGL-S3 ― MGL from Clostridium sporogenes translationally fused to S3 domain of the viral growth factor of smallpox. MGL-S3 has methioninase activity comparable to native MGL. In solution, MGL-S3 protein primarily forms octamers, whereas native MGL, on the contrary, usually forms tetramers. MGL-S3 binds to the surface of the neuroblastoma SH-SY5Y and epidermoid carcinoma A431 cells and, unlike native MGL, remains there and retains its cytotoxic effect after media removal. In HEK293T cells lacking EGFRs, no adhesion was recorded. Confocal fluorescence microscopy confirms the preferential adhesion of MGL-S3 to tumor cells, while it avoids getting into lysosomes. Both MGL and MGL-S3 arrest cell cycle of SH-SY5Y cells mainly in the G1 phase, while only MGL-S3 retains this ability after washing the cells.

Original language	English
Article number	149319
Number of pages	7
Journal	Biochemical and Biophysical Research Communications
Volume	691
DOIs	https://doi.org/10.1016/j.bbrc.2023.149319
Publication status	Published - 8-Jan-2024
Externally published	Yes

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Bondarev, N. A., Bagaeva, D. F., Bazhenov, S. V., Buben, M. M., Bulushova, N. V., Ryzhykau, Y. L., Okhrimenko, I., Zagryadskaya , Y. A., Maslov, I., Anisimova, N. Y., Sokolova, D. V., Kuklin, A. I., Pokrovsky, V. S., & Manukhov, I. V. (2024). Methionine gamma lyase fused with S3 domain VGF forms octamers and adheres to tumor cells via binding to EGFR. Biochemical and Biophysical Research Communications, 691, Article 149319. https://doi.org/10.1016/j.bbrc.2023.149319

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title = "Methionine gamma lyase fused with S3 domain VGF forms octamers and adheres to tumor cells via binding to EGFR",

abstract = "Methods for targeting enzymes exhibiting anticancer properties, such as methionine γ-lyase (MGL), have not yet been sufficiently developed. Here, we present the data describing the physico-chemical properties and cytotoxic effect of fusion protein MGL-S3 ― MGL from Clostridium sporogenes translationally fused to S3 domain of the viral growth factor of smallpox. MGL-S3 has methioninase activity comparable to native MGL. In solution, MGL-S3 protein primarily forms octamers, whereas native MGL, on the contrary, usually forms tetramers. MGL-S3 binds to the surface of the neuroblastoma SH-SY5Y and epidermoid carcinoma A431 cells and, unlike native MGL, remains there and retains its cytotoxic effect after media removal. In HEK293T cells lacking EGFRs, no adhesion was recorded. Confocal fluorescence microscopy confirms the preferential adhesion of MGL-S3 to tumor cells, while it avoids getting into lysosomes. Both MGL and MGL-S3 arrest cell cycle of SH-SY5Y cells mainly in the G1 phase, while only MGL-S3 retains this ability after washing the cells.",

author = "N.A. Bondarev and D.F. Bagaeva and S.V. Bazhenov and M.M. Buben and N.V. Bulushova and Ryzhykau, {Yury L.} and Ivan Okhrimenko and Yu.A. Zagryadskaya and Ivan Maslov and N.Yu. Anisimova and D.V. Sokolova and Kuklin, {Alexander I.} and V.S. Pokrovsky and I.V. Manukhov",

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Bondarev, NA, Bagaeva, DF, Bazhenov, SV, Buben, MM, Bulushova, NV, Ryzhykau, YL, Okhrimenko, I, Zagryadskaya , YA, Maslov, I, Anisimova, NY, Sokolova, DV, Kuklin, AI, Pokrovsky, VS & Manukhov, IV 2024, 'Methionine gamma lyase fused with S3 domain VGF forms octamers and adheres to tumor cells via binding to EGFR', Biochemical and Biophysical Research Communications, vol. 691, 149319. https://doi.org/10.1016/j.bbrc.2023.149319

TY - JOUR

T1 - Methionine gamma lyase fused with S3 domain VGF forms octamers and adheres to tumor cells via binding to EGFR

AU - Bondarev, N.A.

AU - Bagaeva, D.F.

AU - Bazhenov, S.V.

AU - Buben, M.M.

AU - Bulushova, N.V.

AU - Ryzhykau, Yury L.

AU - Okhrimenko, Ivan

AU - Zagryadskaya , Yu.A.

AU - Maslov, Ivan

AU - Anisimova, N.Yu.

AU - Sokolova, D.V.

AU - Kuklin, Alexander I.

AU - Pokrovsky, V.S.

AU - Manukhov, I.V.

PY - 2024/1/8

Y1 - 2024/1/8

N2 - Methods for targeting enzymes exhibiting anticancer properties, such as methionine γ-lyase (MGL), have not yet been sufficiently developed. Here, we present the data describing the physico-chemical properties and cytotoxic effect of fusion protein MGL-S3 ― MGL from Clostridium sporogenes translationally fused to S3 domain of the viral growth factor of smallpox. MGL-S3 has methioninase activity comparable to native MGL. In solution, MGL-S3 protein primarily forms octamers, whereas native MGL, on the contrary, usually forms tetramers. MGL-S3 binds to the surface of the neuroblastoma SH-SY5Y and epidermoid carcinoma A431 cells and, unlike native MGL, remains there and retains its cytotoxic effect after media removal. In HEK293T cells lacking EGFRs, no adhesion was recorded. Confocal fluorescence microscopy confirms the preferential adhesion of MGL-S3 to tumor cells, while it avoids getting into lysosomes. Both MGL and MGL-S3 arrest cell cycle of SH-SY5Y cells mainly in the G1 phase, while only MGL-S3 retains this ability after washing the cells.

AB - Methods for targeting enzymes exhibiting anticancer properties, such as methionine γ-lyase (MGL), have not yet been sufficiently developed. Here, we present the data describing the physico-chemical properties and cytotoxic effect of fusion protein MGL-S3 ― MGL from Clostridium sporogenes translationally fused to S3 domain of the viral growth factor of smallpox. MGL-S3 has methioninase activity comparable to native MGL. In solution, MGL-S3 protein primarily forms octamers, whereas native MGL, on the contrary, usually forms tetramers. MGL-S3 binds to the surface of the neuroblastoma SH-SY5Y and epidermoid carcinoma A431 cells and, unlike native MGL, remains there and retains its cytotoxic effect after media removal. In HEK293T cells lacking EGFRs, no adhesion was recorded. Confocal fluorescence microscopy confirms the preferential adhesion of MGL-S3 to tumor cells, while it avoids getting into lysosomes. Both MGL and MGL-S3 arrest cell cycle of SH-SY5Y cells mainly in the G1 phase, while only MGL-S3 retains this ability after washing the cells.

U2 - 10.1016/j.bbrc.2023.149319

DO - 10.1016/j.bbrc.2023.149319

M3 - Article

SN - 0006-291X

VL - 691

JO - Biochemical and Biophysical Research Communications

JF - Biochemical and Biophysical Research Communications

M1 - 149319

ER -

Methionine gamma lyase fused with S3 domain VGF forms octamers and adheres to tumor cells via binding to EGFR

Abstract

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