Journal of Industrial and Engineering Chemistry, Vol.108, 418-428, April, 2022
Pressurized liquid extraction of phenolics from Pseuderanthemum palatiferum (Nees) Radlk. leaves: Optimization, characterization, and biofunctional properties
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In this study, the pressurized liquid extraction (PLE) of total phenolic content (TPC), gallic acid (GA), and p-hydroxybenzoic acid (PHBA) from Pseuderanthemum palatiferum (Nees) Radlk. leaves was optimized using response surface methodology. The extract at the optimum conditions of TPC, namely OP, was characterized using GC–MS, HPLC, and spectrophotometry analysis. Furthermore, bio-functional properties of the OP, including antioxidant, antimicrobial, antihypertensive activities, and cytotoxicity against cancer and normal cell lines, were also investigated. The results showed that all extraction models were appropriate in predicting the extraction processes (p < 0.05) of the target compounds. In addition to TPC, GA, and PHBA, the OP also contains a high amount of other valuable components that contributed to its highly biological activities. Moreover, the OP was nontoxic on HaCaT cells with a concentration of no more than 1000 mg/mL. From the obtained results, PLE proved to be a suitable technique for the recovery of bioactive compounds from P. palatiferum leaves.
Keywords:Pressurized liquid extraction;Response surface methodology;Phenolics;Biofunctional properties
- Belwal T, Ezzat SM, Rastrelli L, Bhatt ID, Daglia M, Baldi A, et al., Trends Anal. Chem., 100, 82 (2018)
- Plaza M, Turner C, Trends Anal. Chem., 71, 39 (2015)
- Bubalo MC, Vidovic S, Redovnikovic IR, Jokic S, Food Bioprod. Process., 109, 52 (2018)
- Naffati A, Vladic J, Pavlic B, Radosavljevic R, Gavaric A, Vidovic S, J. Supercrit. Fluids, 121, 1 (2017)
- Shitu A, Izhar S, Tahir T, Glob. J. Environ. Sci. Manag., 1, 255 (2015)
- Carr AG, Mammucari R, Foster NR, Chem. Eng. J., 172, 1 (2011)
- Bubalo MC, Vidovic S, Redovnikovic IR, Jokic S, Food Bioprod. Process., 109, 52 (2018)
- Pereira DTV, Tarone AG, Cazarin CBB, Barbero GF, Martínez J, J. Food Eng., 240, 105 (2019)
- Trinh LTP, Choi YS, Bae HJ, Ind. Crop. Prod., 125, 261 (2018)
- Barrales FM, Silveira P, Barbosa PDPM, Ruviaro AR, Paulino BN, Pastore GM, Macedo GA, Martinez J, Food Bioprod. Process., 112, 9 (2018)
- Bindes MMM, Cardoso VL, Reis MHM, Boffito DC, J. Food Eng., 241, 97 (2019)
- Corazza GO, Bilibio D, Zanella O, Nunes AL, Bender JP, Carniel N, et al., Food Bioprod. Process., 112, 63 (2018)
- Komonrit P, Banjerdpongchai R, Tumor Biology, 40 (2018)
- Huy TB, Phuong NTL, Nga BK, Oanh HN, Hieu NH, ChemistrySelect, 4, 8129 (2019)
- Chayarop K, Temsiririrkkul R, Peungvicha P, Wongkrajang Y, Chuakul W, Amnuoypol S, et al., J. Pharm. Sci., 38, 13 (2011)
- Nualkaew S, Padee P, Talubmook C, J. Med. Plants Res, 9, 629 (2015)
- Khonsung P, Panthong A, Chiranthanut N, Intahphuak S, J. Nat. Med., 65, 551 (2011)
- Khumpook T, Chomdej S, Saenphet S, Amornlerdpison D, Saenphet K, Chiang Mai J. Sci., 40, 321 (2013)
- Quang JBE, Nguyen V, J. Med. Plant Res., 7(35), 2597 (2013)
- Ho TC, Chun BS, J. Food Sci., 84, 1201 (2019)
- Buncharoen W, Saenphet S, Saenphet K, Trends Food Sci. Technol., 2, 13 (2010)
- Pulbutr P, Jaruchotikamol A, Cushnie B, Rattanakiat S, Nualkaew S, J. Med. Plant Res., 8, 967 (2014)
- Phan MG, Ha VB, Phan TS (2003)
- Ho TC, Kim MH, Cho YJ, Park JS, Nam SY, Chun BS, Food Packag. Shelf Life, 24, 100469 (2020)
- Meda A, Lamien CE, Romito M, Millogo J, Nacoulma OG, Food Chem., 91, 571 (2005)
- Kumar RDMSY, Prasad D Misra K, Food Chem., 127, 1309 (2011)
- Dinh TV, Saravana TS, Woo HC, Chun BS, Sep. Purif. Technol., 196, 287 (2018)
- Pomory CM, Anal. Biochem., 378, 216 (2008)
- Saqib AAN, Whitney PJ, Biomass Bioenerg., 35, 4748 (2011)
- Kolodziejczyk-Czepas J, Bijak M, Saluk J, Ponczek MB, Zbikowska HM, Nowak P, et al., Int. J. Biol. Macromol., 72, 1152 (2015)
- Khan F, Manivasagan P, Lee JW, Pham DTN, Oh J, Kim YM, Mar. Drugs, 17, 208 (2019)
- Niyonizigiye I, Ngabire D, Patil MP, Singh AA, Kim GD, Int. J. Biol. Macromol., 137, 844 (2019)
- Haq M, Park SK, Kim MJ, Cho YJ, Chun BS, J. Food Drug Anal., 26, 545 (2018)
- AOCS A, Champaign: American Oil Chemist’s Society, (1989).
- He C, Du H, Tan C, Chen Z, Chen Z, Yin F, et al., J. Food Eng., 227, 30 (2018)
- Li AN, Li S, Zhang YJ, Xu XR, Chen YM, Li HB, Nutrients, 6, 6020 (2014)
- Madunic J, Madunic IV, Gajski G, Popic J, Garaj-Vrhovac V, Cancer Lett., 413, 11 (2018)
- Chen AY, Chen YC, Food Chem., 138, 2099 (2013)
- Chayarop RTK, Peungvicha P, Wongkrajang Y, Chuakul W, Amnuoypol S, Ruangwises N, Mahidol Univ. J. Pharm. Sci., 38(3-4), 13 (2011)
- Yan-Hwa C, Chao-Lin C, Hsia-Fen H, J. Sci. Food Agric., 80, 561 (2000)
- Heleno SA, Martins A, Queiroz MJR, Ferreira IC, Food Chem., 173, 501 (2015)
- Haq M, Ahmed R, Cho YJ, Chun BS, Waste Biomass Valorization, 8, 1953 (2017)
- Baydar NG, Özkan G, Sagdic O, Food Control, 15, 335 (2004)
- Ayyash M, Johnson SK, Liu SQ, Al-Mheiri A, Abushelaibi A, LWT, 95, 295 (2018)
- Romdhane MB, Haddar A, Ghazala I, Jeddou KB, Helbert CB, Ellouz- Chaabouni S, Food Chem., 216, 355 (2017)
- Khonsung APP, Chiranthanut N, Intahphuak S, J. Nat. Med., 65, 551 (2011)
- You BR, Moon HJ, Han YH, Park WH, Food Chem. Toxicol., 48, 1334 (2010)
- Tu LY, Bai HH, Cai JY, Deng SP, Scanning, 38, 644 (2016)
- Zou Y, Chang SKC, J. Agric. Food Chem., 59, 4567 (2011)