Sains Malaysiana
52(5)(2023):
1371-1381
http://doi.org/10.17576/jsm-2023-5205-04
Optimisation of Protease
Purification from Christia vespertilionis Leaves and Its
Anti-Inflammatory Activity
(Pengoptimuman Penulenan Protease
daripada Daun Christia vespertilionis dan Aktiviti Anti-Keradangan)
IZZAH FARHAH ZAMBARI1,
SITTI RAHMA ABDUL HAFID2 & NUR AIRINA MUHAMAD1,*
1Institute
of Biological Sciences, Faculty of Science, Universiti Malaya, 50603 Kuala Lumpur,
Federal Territory, Malaysia
2Nutrition Unit, Product
Development and Advisory Services Division, Malaysian Palm Oil Board, 43000
Kajang, Selangor Darul Ehsan, Malaysia
Received: 30 July 2022/Accepted: 10 May 2023
Abstract
Christia
vespertilionis (L. f.) Bakh. f. is
widely known for its anti-inflammatory and anti-cancer properties. However,
there are no previous studies about extracting and purifying protease enzymes
from C. vespertilionisleaves. Therefore, this study
was conducted to extract and optimise the purification of protease from C. vespertilionis leaves and characterise
its anti-inflammatory properties. The
optimisation was performed using different levels of ammonium sulphate
saturation (20, 40, 60, 80 and 100%). Next, dialysis was carried out for the
sample with the highest specific activity (16.88 U/mg), achieved with 100% ammonium sulphate saturation. At
100% saturation, C. vespertilionis leaves showed an increase in the
specific activity to 20.06 U/mg after dialysis. The
findings demonstrate the successful extraction and purification of C. vespertilionis protease (CVP) with a molecular weight of 48 kDa, as proven by sodium dodecyl
sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) analysis. CVP also
exhibited anti-inflammatory activity, with an inhibition of 45.6% in lipopolysaccharide
(LPS)-stimulated RAW264.7 cells and IC50 of 19.24 µg/mL. The HPLC
test further confirmed the presence of gallic acid and quercetin compounds in C.
vespertilionis, which cure inflammation. The
results indicate that optimised CVP purification was achieved and its
anti-inflammatory ability was proven.
Keywords: Ammonium sulphate; C.
vespertilionis; purification; protease; SDS-PAGE
Abstrak
Christia
vespertilionis (L. f.) Bakh. f. terkenal dengan sifat anti-radang dan anti-kansernya. Walau bagaimanapun,
tiada kajian tentang pengekstrakan dan penulenan enzim protease daripada daun C.
vespertilionis. Oleh itu, kajian ini dijalankan untuk mengekstrak dan
mengoptimumkan penulenan enzim protease daripada daun C. vespertilionis dan untuk mencirikan keupayaannya dalam menyembuhkan keradangan. Pengoptimuman
dilakukan menggunakan tahap ketepuan amonium sulfat yang berbeza (20, 40, 60,
80 dan 100 %). Kemudian, dialisis dijalankan ke atas sampel yang mempunyai
aktiviti khusus tertinggi (16.88 U/mg) yang diperoleh pada ketepuan ammonium
sulfat 100%. Pada ketepuan 100%, daun C. vespertilionis menunjukkan
peningkatan aktiviti khusus kepada 20.06 U/mg selepas dialisis. Hasil
menunjukkan pengekstrakan dan penulenan protease C. vespertilionis (CVP)
dengan berat molekul 48 kDa telah berjaya diperoleh, seperti yang dibuktikan
melalui ujian elektroforesis gel natrium dodesil sulfat-poliakrilamida
(SDS-PAGE). CVP juga menunjukkan aktiviti anti-radang dengan perencatan
sebanyak 45.6% dalam sel RAW264.7 yang dirangsang oleh lipopolisakarida (LPS)
dengan IC50 pada 19.24 µg/mL. Ujian HPLC juga mengesahkan kehadiran
asid galik dan kuersetin dalam C. vespertilionis yang mempunyai
keupayaan untuk menyembuhkan keradangan. Ini menunjukkan CVP telah melalui
kaedah penulenan yang optimum dan membuktikan keupayaannya untuk menyembuhkan
keradangan.
Kata
kunci: Amonium
sulfat; C. vespertillonis; penulenan; protease; SDS-PAGE
REFERENCES
Antào, C.M. &
Malcata, F.X. 2005. Plant serine proteases: Biochemical, physiological and
molecular features. Plant Physiology and Biochemistry 43(7): 637-650.
Belton, P.S., Sorensen,
H., Sorensen, S., Bjergegaard, C. & Michelson, S. 1999. Chromatography
and Capillary Electrophoresis in Food Analysis. Cambridge: The Royal
Society of Chemistry.
Brien, S., Lewith, G., Walker, A., Hicks, S.M. & Middleton, D. 2004. Bromelain
as a treatment for osteoarthritis: A review of clinical studies. Evidence-Based Complementary and Alternative
Medicine 1(3): 251-257.
Chen, M., Qin, Y., Ma,
H., Zheng, X., Zhou, R., Sun, S., Huang, Y., Duan, Q., Liu, W., Wu, P., Xu, X.,
Sheng, Z., Zhang, K. & Li, D. 2019. Downregulating NF-kappaB signaling
pathway with triterpenoids for attenuating inflammation: in vitro and in
vivo studies. Food Function 10: 5080-5090.
Chew, K.K., Ng, S.Y.,
Thoo, Y.Y., Khoo, M.Z., Wan Aida, W.M. & Ho, C.W. 2011. Effect of ethanol
concentration, extraction time and extraction temperature on the recovery of
phenolic compounds and antioxidant capacity of Centella asiatica extract. International Food Research Journal 18: 571-578.
Cheon, H., Rho, Y.H.,
Choi, S.J., Lee, Y.H., Song, G.G., Sohn, J., Won, N.H. & Ji, J.D. 2006.
Prostaglandin E2 augments IL-10 signaling and function. Journal of
Immunology 177: 1092-2100.
Choy, E.H.S. &
Panayi, G.S. 2001. Cytokine pathways and joint inflammation in rheumatoid
arthritis. New England Journal of Medicine 344(12): 907-916.
Drivdahl, R.H. &
Thimann, K.V. 1977. Proteases of senescing oat leaves I. Purification and
general properties. Journal of Plant Physiology 59(6): 1059-1063.
Esposito, M., Di-Pierro,
P., Dejonghe, W., Mariniello, L. & Porta, R. 2016. Enzymatic milk clotting
activity in artichoke (Cynara scolymus) leaves and alpine thistle (Carduus
defloratus) flowers. Immobilization of alpine thistle aspartic protease. Food
Chemistry 204(2): 115-121.
Fulzele, D.P. &
Satdive, R.K. 2005. Comparison of techniques for the extraction of the
anti-cancer drug camptothecin from Nothapodytes foetid. Journal of
Chromatography A 1063(1-2): 9-13.
Funaro, A., Wu, X.,
Song, M., Zheng, J., Guo, S., Rakariyatham, K., Rodriguez-Estrada, M.T. &
Xiao, H. 2016. Enhanced anti-inflammatory activities by the combination of
luteolin and tangeretin. Journal of Food Science 81(5): 1320-1327.
Garnock-Jones, P.J.
1983. Note on some folklore drugs and remedies of the Lau Group, Fiji. South
Pacific Journal of Natural Science 4: 4-8.
Gonzàlez, R.N., Badillo,
J.A., Aranda, A.J.S. & Carmen, O.S.M. 2011. Production of plant proteases in
vivo and in vitro-a review. Biotechnology Advances 29(6): 983-996.
Gupta, R., Beg, Q. &
Lorenz, P. 2002. Bacterial alkaline proteases: Molecular approaches and
industrial applications. Applied Microbiology Journal 59(1):
15-32.
Hofer, D., Schwach, G.,
Tabrizi-Wizsy, N.G., Sadjak, A., Sturm, S., Stuppner, H. & Pfragner, R.
2013. Christia vespertilionis plant extracts as novel antiproliferative
agent against human neuroendocrine tumor cells. Oncology Reports 29(6): 2219-2226.
Karamaae,
M.A., Kosinska, A. & Pegg, R.B. 2005. Comparison of radical-scavenging
activities of selected phenolic acids. Polish Journal of Food and Nutrition
Sciences 14: 165-170.
Kaur, S.,
Michael, H., Arora, S., Harkonen, P.L. & Kumar, S. 2005. The in vitro cytotoxic and apoptotic activity of Triphala-an Indian herbal drug. Journal
of Ethnopharmacology 97: 15-20.
Kim, M., Si, J.B.,
Reddy, L.V. & Wee, Y.J. 2016. Enhanced production of extracellular
proteolytic enzyme excreted by a newly isolated Bacillus subtilis FBL-1
through combined utilization of statistical designs and response surface
methodology. RSC Advances 6(56): 51270-51278.
Kiran, K.K., Venkata,
N.R. & Nagoji, K.E.V. 2012. A validated RP-HPLC method for the
determination of Bedamustine hydrochloride in tablet dosage form using
gemcitabine hydrochloride as internal standard. FABAD Journal of
Pharmaceutical Sciences 37(3): 133-139.
Kuddus, M. 2015.
Cold-active microbial enzymes. Biochemistry and Physiology 4(1):
1-2.
Laemmli, U.K. 1970.
Cleavage of structural proteins during the assembly of the head of
bacteriophage T4. Nature 227(5259): 680-685.
Lee, J.J., Yazan, L.S., Kassim, N.K., Che Abdullah, C.A., Esa, N., Lim,
P.C. & Tan, D.C. 2020. Cytotoxic activity of Christia vespertilionis root and leaf extracts and fractions against breast cancer cell lines. Molecules 25(11): 2610.
Murugesu, S., Perumal, V., Balan, T., Fatinanthan, S., Khatib, A.,
Arifin, N.J., Mohd Shukri, N.S.S., Saleh, M.S.M. & Hin, L.W. 2020. The
investigation of antioxidant and antidiabetic activities of Christia
vespertilionis leaves extracts. South African Journal of Botany 133:
227-235.
Mutalib, N.A. &
Latip, N.A. 2019. Synergistic interactions between Christia vespertilionis leaves extract and chemotherapy drug cyclophosphamide on WRL-68 cell line. Asian
Journal of Pharmaceutical Research and Development 7(3): 109-113.
Nam, S.H., Walsh, M.K.
& Yang, K.Y. 2016. Comparison of four purification methods to purify
cysteine protease from Asian pear fruit (Pyrus pyrifolia). Biocatalysis
and Agricultural Biotechnology 5: 86-93.
Naidu, K.S.B. &
Devi, K.L. 2005. Optimization of thermostable alkaline protease production from
species of Bacillus using rice bran. African Journal of Biotechnology 4(7): 724-726.
Nikolic, K.M. 2006. Theoretical study of phenolic antioxidants properties
in reaction with oxygen-centered radicals. Journal of Molecular Structure:
Theochem 774: 95-105.
Nguyen-Pouplin, J.,
Tran, H., Tran, H., Phan, T.A., Dolecek, C., Farrar, J., Tran, T.H., Caron, P.,
Bodo, B. & Grellier, P. 2007. Antimalarial
and cytotoxic activities of ethnopharmacologically selected medicinal plants
from South Vietnam. Journal of
Ethnopharmacology 109(3):
417-427.
Osman, M.S., Ghani, Z.A., Ismail, N.F., Razak, N.A.,
Jaapar, J. & Ariff, M.A. 2017. Qualitative comparison of active compounds between
red and green Mariposa Christia vespertillionis leaves extracts. Proceedings of the American Institute of Physics
Conference 1885: 020282.
Park, S.R., Lim, C.Y., Kim, D.S. & Ko, K. 2015. Optimization of ammonium sulfate concentration for
purification of colorectal cancer vaccine candidate recombinant protein
GA733-FcK isolated from plants. Frontiers in Plant Science Frontiers 6: 1040.
Rao, U.S.M., Ahmad, B.A. & Mohd, K.S. 2016. In vitro nitric oxide scavenging and anti-inflammatory activities of
different solvent extracts of various parts of Musa paradisiaca. Malaysian
Journal of Analytical Sciences 20(5):
1191-1202.
Rayburn, E.R., Ezell, S.J. & Zhang, R. 2009. Anti-inflammatory agents for cancer therapy. Molecular
and Cellular Pharmacology 1: 29-43.
Ren, J., Li, L., Wang, Y., Zhai, J., Chen, G. &
Hu, K. 2019. Gambogic acid induces
hemeoxygenase-1 through Nrf2 signaling pathway and inhibits NF kappaB and MAPK
activation to reduce inflammation in LPS-activated RAW264.7 cells. Biomedicine
& Pharmacotherapy 109: 555-562.
Roy, S. & Kumar, V.
2014. A practical approach on SDS PAGE for separation of protein. International
Journal of Science and Research 3(8): 955-960.
Sakdarat, S., Shuyprom, A., Pientong, C., Ekalaksananan, T. &
Thongchai, S. 2009. Bioactive constituents from the leaves of Clinacanthus
nutans Lindau. Bioorganic & Medicinal Chemistry 17(5):
1857-1860.
Sathya Prabhu, D.,
Apoorva, S., Nandita, J., Palani, C. & Devi Rajeswari, V. 2017.
Purification of protease enzyme from the leaf, seed and pod samples of Vicia
faba L. International Food Research Journal 25(5): 1904-1911.
Singh, M.P., Gupta, A. & Singh Sisodia, S. 2019. Qualitative analysis
of gallic acid by HPLC method in different extracts of Terminalia bellerica Roxb.
fruit. FABAD Journal of Pharmaceutical Sciences 44(2): 101-106.
Sun, Q., Zhang, B., Yan,
Q.J. & Jiang, Z.Q. 2016. Comparative analysis on the distribution of
protease activities among fruits and vegetable resources. Food Chemistry 2(13):
708-713.
Upadhyay, H.C., Sisodia,
B.S., Cheema, H.S., Agrawalb, J., Pal, A., Darokar, M.P. & Srivastava, S.K.
2013. Novel antiplasmodial agents from Christia vespertilionis. Natural
Product Communications 8(11): 1-4.
van der Hoorn, R.A.
2008. Plant proteases: From phenotypes to molecular mechanisms. Annual
Review of Plant Biology 59: 191-223.
Viswanatha Swamy, A.H.M.
& Patil, P.A. 2008. Effect of some clinically used proteolytic enzymes on inflammation
in rats. Indian Journal of Pharmaceutical Sciences 70(1): 114-117.
Wardani, A.K. &
Nindita, I.O. 2012. Purification and characterization of protease from
protease-producing bacteria isolated from tofu whey. Jurnal Teknologi
Pertanian 13(3): 149-156.
Winarti,
A., Fitriyanto, N.A., Jamhari, Pertiwiningrum, A., Bachruddin, Z., Pranoto, Y.
& Erwanto, Y. 2018. Optimizing of protease purification from Bacillus
cereus TD5B by ammonium sulfate precipitation. Chemical Engineering Transactions 63: 709-714.
Whiting, P.A. 2007.
Commercial production of Christia subcordata Moench by
establishing cultural practices and by applying plant growth regulators.
Dissertation. United States: The University of Georgia (Unpublished).
Yam, M.L., Abdul Hafid,
S.R., Cheng, H.M. & Nesaretnam, K. 2009. Tocotrienols supress
proinflammatory markers and cyclooxygenase-2 expression in RAW264.7
macrophages. Lipids 44(9): 787-797.
*Corresponding author; email: nurairina@um.edu.my
|