Cod Gelatin as an Alternative to Cod Collagen in Hybrid Materials for Regenerative Medicine

Victoria Chasova; Ludmila Semenycheva; Marfa Egorikhina; Irina Charykova; Daria Linkova; Yulia Rubtsova; Diana Fukina; Andrey Koryagin; Natalia Valetova; Evgeny Suleimanov

Macromolecular Research, Vol.30, No.3, 212-221, March, 2022

DOI10.1007/s13233-022-0017-9 Export Citation

Cod Gelatin as an Alternative to Cod Collagen in Hybrid Materials for Regenerative Medicine

Victoria Chasova, Ludmila Semenycheva, Marfa Egorikhina¹, Irina Charykova¹, Daria Linkova¹, Yulia Rubtsova, Diana Fukina, Andrey Koryagin, Natalia Valetova, and Evgeny Suleimanov

Lobachevsky State University of Nizhny Novgorod, pr. Gagarina 23, 603950 Nizhny Novgorod, Russian Federation
¹Federal State Budgetary Educational Institution of Higher Education Privolzhsky Research Medical, University, the Ministry of Health of the Russian Federation (FSBEI HE PRMU MOH), Minin and Pozharsky, Square 10/1, 603950 Nizhny Novgorod, Russian Federation

Collagen and gelatin isolated from the integumentary tissues of cod are almost identical in ash content, molecular weight, but significantly differ in dynamic viscosity. The chemical properties of proteins are studied by the example of catalytic processes: enzymatic hydrolysis and its functional properties in hybrid hydrogel scaffolds in a composition with fibrinogen (Fn), as well as photocatalytic synthesis and the properties of their graft copolymers with polymethyl methacrylate (PMMA). Proteolysis of proteins in an aqueous solution leads to the destruction of peptides mainly with Mn∼10%. Unlike collagen, in the case of gelatin, part of the initial high-molecular macromolecules is not destroyed. In hybrid hydrogel scaffolds in the composition with fibrinogen, cod collagen (CC) is more promising, showing less cytotoxicity in comparison with gelatin. Photocatalytic grafting of methyl methacrylate (MMA) on cod collagen and gelatin (CG) (∼13–15%) with the formation of a graft copolymer PMMA-CG is more effective with collagen. Visualization of the microstructure of a freeze-dried graft copolymer is typical for scaffolds.

Keywords:scaffold;cod collagen;cod gelatin;RbTe1.5W0.5O6 oxide;grafting copolymerization

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Jafari H, Lista A, Siekapen MM, Ghaffari-Bohlouli P, Nie L, Alimoradi H, Shavandi A, Polymer, 12, 2230 (2020)
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Yan M, Qin S, Li B, J. Aquat. Food Prod. Technol., 26, 1166 (2017)
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Mitra I, Mukherjee S, Reddy VP, Dasgupta BS, Bose JC, Mukherjee KS, Linert W, Moi SC, RSC Adv., 6, 76600 (2016)
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[2] Arif MM, Khan SM, Gull N, Tab TA, Zia S, Khan RU, Awais SM, Butt MA, Int. J. Pharm., 598, 120270 (2021)

[3] Shah BM, Palakurthi SS, Khare T, Khare S, Palakurthi S, Int. J. Biol. Macromol., 165, 722 (2020)

[4] Yang J, An X, Liu L, Tang S, Cao H, Xu Q, Liu H, Carbohydr. Polym., 250, 116881 (2020)

[5] Schweizer TA, Shambat SM, Haunreiter VD, Mestres CA, Weber A, Maisano F, Zinkernagel AS, Hasse B, Emerging Infect. Dis., 26, 2448 (2020)

[6] Zhang Q, Wang Q, Lv S, Lu J, Jiang S, Regenstein JM, Lin L, Food Biosci.

[7] Miele D, Catenacci L, Rossi S, Sandri G, Sorrenti M, Terzi A, Giannini C, Riva F, Ferrari F, Caramella C, Bonferoni MC, Materials, 13, 4698 (2020)

[8] Cao J, Wang P, Liu Y, Zhu C, Fan D, Int. J. Biol. Macromol., 155, 625 (2020)

[9] Borrego-González S, Dalby MJ, Díaz-Cuenca A, Biomimetics, 6, 20 (2021)

[10] Perez-Puyana V, Jiménez-Rosado M, Rubio-Valle JF, Guerrero A, Romero A, J. Polym. Res., 26, 190 (2019)

[11] Wei X, Zhao Y, Zheng J, Cao Q, Li S, He L, Wei B, Zhang J, Xu C, Wang H, Macromol. Res., 29, 402 (2021)

[12] He L, Li S, Xu C, Wei B, Zhang J, Xu Y, Zhu B, Cao Y, Wu X, Xiong Z, Huang R, Yang J, Wang H, Macromol. Res., 28, 861 (2020)

[13] Egorikhina MN, Rubtsova YP, Aleynik DY, Gels, 6, 44 (2020)

[14] Egorikhina MN, Rubtsova YP, Charykova IN, Bugrova ML, Bronnikova II, Mukhina PA, Sosnina LN, Aleynik DY, Polymer, 12, 2550 (2020)

[15] Semenycheva LL, Egorikhina MN, Chasova VO, Valetova NB, Kuznetsova YL, Mitin AV, Mar. Drugs, 18, 208 (2020)

[16] Egorikhina MN, Aleynika DY, Rubtsova YP, Levin GY, Charykova IN, Semenycheva LL, Bugrova ML, Zakharychev EA, Bioact. Mater., 4, 334 (2019)

[17] Egorikhina MN, Semenycheva LL, Chasova VO, Bronnikova II, Rubtsova YP, Zakharychev EA, Aleynik DY, Mar. Drugs, 19, 502 (2021)

[18] Ivanov AA, Popova OP, Danilova TI, Kuznetsova AV, Biol. Bul. Rev., 139, 196 (2019)

[19] Zhang D, Wu X, Chen J, Lin K, Bioact. Mater., 3, 129 (2018)

[20] Al Kayal T, Losi P, Pierozzi S, Soldani G, Sci. Rep., 10, 5111 (2020)

[21] Sousa RO, Martins E, Carvalho DN, Alves AL, Oliveira C, Duarte ARC, Silva TH, Reis RL, J. Polym. Res., 27, 73 (2020)

[22] Castilho M, Hochleitner G, Wilson W, van Rietbergen B, Dalton PD, Groll J, Malda J, Ito K, Sci. Rep., 8, 1245 (2018)

[23] Jiang HJ, Xu J, Qiu Z, Ma XL, Zhang ZQ, Tan XX, Cui Y, Cui FZ, Materials, 8, 2616 (2015)

[24] Vedhanayagam M, Ananda S, Nair BU, Sreeram KJ, Mater. Sci. Eng., 108, 110378 (2020)

[25] Carrion B, Souzanchi MF, Wang VT, Tiruchinapally G, Shikanov A, Putnam AJ, Coleman RM, Adv. Healthcare Mater., 5, 1192 (2016)

[26] Semenycheva LL, Chasova VO, Fukina DG, Koryagin AV, Valetova NB, Suleymanov EV, Polym. Sci. Ser. D

[27] Cruz-López H, Rodríguez-Morales S, Enríquez-Paredes LM, Villarreal-Gómez LJ, Olivera-Castillo L, Cortes-Santiago Y, López LM, Tissue Cell, 72, 101593 (2021)

[28] Sun B, Li C, Mao Y, Qiao Z, Jia R, Huang T, Xu D, Yang W, Int. J. Food Sci. Technol., 45, 3443 (2021)

[29] Oliveira V, de Assis CR, de Aquino Marques da Costa, Neri R, do Monte FTD, da Costa Vasconcelos de Freitas HMS, França RCP, J. Mol. Struct., 1224, 129023 (2021)

[30] Xu J, Liu F, Goff HD, Zhong F, Food Hydrocolloids, 107, 105326 (2020)

[31] Gulevsky AK, Shcheniavsky II, Biotechnol. Acta, 13, 42 (2020)

[32] Finer EG, Franks F, Phillips MC, Sugget A, Biopolymers, 14, 1995 (1975)

[33] Olsen D, Yang C, Bodo M, Chang R, Leigh S, Baez J, Carmichael D, Perälä M, Hämäläinen ER, Jarvinen M, Polarek J, Adv. Drug Deliv. Rev., 55, 1547 (2003)

[34] Sharifi E, Azami M, Kajbafzadeh AM, Moztarzadeh F, Faridi-Majidi R, Shamousi A, Karimi R, Ai J, Mater. Sci. Eng., 59, 533 (2016)

[35] Toledano M, Toledano-Osorio M, Carrasco-Carmona A, Vallecillo C, Lynch CD, Osorio MT, Osorio R, Polymer, 12, 1850 (2020)

[36] Coppola D, Oliviero M, Vitale GA, Lauritano C, D’Ambra I, Iannace S, de Pascale D, Mar. Drugs, 18, 214 (2020)

[37] Jafari H, Lista A, Siekapen MM, Ghaffari-Bohlouli P, Nie L, Alimoradi H, Shavandi A, Polymer, 12, 2230 (2020)

[38] Li Y, Meng H, Liu Y, Lee BP, Sci. World J., 2015, 685690 (2015)

[39] Tereschenko VP, Kirilova IA, Larionov PM, Adv. Current Nat. Sci., 8, 66 (2015)

[40] Yan M, Qin S, Li B, J. Aquat. Food Prod. Technol., 26, 1166 (2017)

[41] Kezwoń A, Chromińska I, Fraczyk T, Wojciechowski K, Colloids Surf. B: Biointerfaces, 137, 60 (2016)

[42] De la Puente P, Ludeña D, Exp. Cell Res., 322 (2014)

[43] Dong C, Lv Y, Polymer, 8, 42 (2016)

[44] Momot AP, Taranenko IA, RU Patent RF, 2366955 (2009).

[45] Fukina DG, Suleimanov EV, Boryakov AV, Zubkov SY, Koryagin AV, Volkova NS, Gorshkov AP, J. Solid State Chem., 293, 121787 (2020)

[46] Semenycheva LL, Kuznetsova JL, Valetova NB, Geras'kina EV, Tarankova OA, Method for producing of acetic dispersion of high molecular fish collagen. RU Patent RF, 2567171 (2015).

[47] Freshney RJ, Culture of Animal Cells: A Manual of Basic Technique and Specialized Applications, Wiley-Blackwell, New York, 2010.

[48] Photographic gelatin. Method of Determination of Viscosity and Viscosity Decrease, GOST USSR no. 25183.4-82 (1983).

[49] Egorikhina MN, Aleynik DY, Rubtsova YP, Charykova IN, Methods X., 7, 101146 (2020)

[50] Devi N, Dutta J, Int. J. Biol. Macromol., 104, 1897 (2017)

[51] Mitra I, Mukherjee S, Reddy VP, Dasgupta BS, Bose JC, Mukherjee KS, Linert W, Moi SC, RSC Adv., 6, 76600 (2016)

[52] Shanmugam S, Gopal B, Appl. Surf. Sci., 303, 277 (2014)

[53] Egorikhina MN, Levin GY, Charykova IN, Alejnik DY, Sosnina LN, RU Patent RF, 2653434 (2018).

[54] Fan C, Wang DA, Tissue Eng. Part B Rev., 23, 451 (2017)

[55] Caliari SR, Burdick JA, Nat. Methods, 13, 405 (2016)

[56] Shpichka AI, Koroleva AV, Deiwick A, Timashev PS, Semenova EF, Moiseeva IY, Konoplyannikov MA, Chichkov BN, Cell Tissue Biol., 11, 81 (2017)

[57] Galler KM, Cavender AC, Koeklue U, Suggs LJ, Schmalz G, D'Souza RN, Regen. Med., 6, 191 (2011)

[58] Zhang G, Wang X, Wang Z, Zhang J, Suggs L, Tissue Eng., 12, 9 (2006)

[59] Schmidt JA, Rinaldi S, Scalbert A, Ferrari P, Achaintre D, Gunter MJ, Appleby PN, Key TJ, Travis RC, Eur. J. Clin. Nutr.

[60] Sparrow RL, Simpson RJ, Greening DW, Methods Mol. Biol., 1619, 23 (2017)

[61] Nascimento B, Goodnough LT, Levy JH, Br. J. Anaesth., 113, 922 (2014)

[62] Sahni A, Guo M, Sahni SK, Francis CW, Blood, 104, 409 (2004)

[63] Martino MM, Briquez PS, Ranga A, Lutolf MP, Hubbell JA, Proc. Natl. Acad. Sci. U.S.A., 110, 4563 (2013)

[64] Jeon O, Ryu SH, Chung JH, Kim BS, J. Control. Release, 105, 249 (2005)

[65] Briganti E, Spiller D, Mirtelli C, Kull S, Counoupas C, Losi P, Senesi S, Stefano RD, Soldani G, J. Control. Release, 142, 14 (2010)

[66] Panetti TS, Kudryk BJ, Mosher DF, J. Biol. Chem., 274, 430 (1990)