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Aplikasi topikal ekstrak krim daun srikaya (Annona squamosa L.) meningkatkan kadar tissue inhibitors of matrix metalloproteinase-1 dan menurunkan kadar matrix metalloproteinase-9 pada tikus wistar (Rattus norvegicus) yang terpapar sinar ultraviolet B

  • Luh Nyoman Arya Wisma Ariani ,
  • Ketut Kwartantaya Winaya ,
  • I Gusti Agung Ayu Elis Indira ,
  • I Gusti Agung Ayu Praharsini ,
  • I Gusti Nyoman Darmaputra ,
  • Ni Made Dwi Puspawati ,


Abstract

Introduction: Skin aging is a biological process that cannot be avoided. Repeated UVB exposure increases collagen degradation by increasing MMP-9 levels. Little is known about TIMP-1's potential role in skin protection or recovery from skin damage caused by photoaging. Sugar apple leaf extract increases cell proliferation, levels and collagen deposition. This study aims to determine the topical application of sugar apple leaf cream extract (Annona squamosa L.) to increase TIMP-1 levels and decrease MMP-9 levels in Wistar rats (Rattus norvegicus) exposed to UVB light.

Methods: Experimental study with a post-test-only design with a control group design using 35 male Wistar rats. There were five groups: negative control, positive control, and treatment (5%, 10%, and 20% sugar apple leaf extract cream). Skin biopsies were taken to measure TIMP-1 and MMP-9 levels using the ELISA method. Data analysis was performed using the SPSS 25.0 application.

Results: The phytochemical test showed total flavonoid levels of 3583.77 mg QE/100 mL, phenol 5244.98 mg GAE/100 mL, IC50 value 226.53 ppm, and alkaloids. The highest mean TIMP-1 level in the treatment group was 38.95 ± 3.31 ng/mL, and the lowest mean MMP-9 level was 2.94 ± 1.66 ng/mL (20% concentration). One Way ANOVA showed that there were significant differences in TIMP-1 and MMP-9 levels between the test groups with a p<0.001. Post hoc LSD analysis showed significantly higher TIMP-1 and lower MMP-9 levels (p<0.05) than the control.

Conclusion: Administration of sugar apple leaf cream extract increased TIMP-1 levels and significantly decreased MMP-9 levels in Wistar rats exposed to UVB light.

 

Pendahuluan: Penuaan kulit merupakan proses biologis yang tidak dapat dihindari. Paparan UVB berulang meningkatkan degradasi kolagen dengan meningkatkan kadar MMP-9. Potensi keterlibatan TIMP-1 dalam perlindungan kulit atau pemulihan dari adanya kerusakan kulit akibat photoaging masih belum banyak diketahui. Ekstrak daun srikaya diketahui dapat meningkatkan proliferasi sel, kadar dan deposisi kolagen. Tujuan penelitian ini adalah untuk mengetahui aplikasi topikal ekstrak krim daun srikaya (Annona squamosa L.) dalam meningkatkan kadar TIMP-1 dan menurunkan kadar MMP-9 pada tikus wistar (Rattus norvegicus) yang terpapar sinar UVB.

Metode: Penelitian eksperimental dengan rancangan post-test-only with control group design ini menggunakan 35 tikus wistar jantan. Terdapat lima kelompok, yaitu kontrol negatif, kontrol positif, dan perlakuan (krim ekstrak daun srikaya 5%, 10%, dan 20%). Biopsi kulit diambil untuk pengukuran kadar TIMP-1 dan MMP-9 dengan metode ELISA. Analisis data dilakukan dengan menggunakan aplikasi SPSS 25.0.

Hasil: Uji fitokimia menunjukkan kadar total flavonoid sebanyak 3583,77 mg QE/100 mL; fenol 5244,98 mg GAE/100 mL, nilai IC50 226,53 ppm, dan alkaloid positif. Rerata kadar TIMP-1 tertinggi pada kelompok perlakuan adalah 38,95 ± 3,31 ng/mL dan rerata kadar MMP-9 terendah yaitu 2,94 ± 1,66 ng/mL (konsentrasi 20%). Analisis One Way ANOVA menunjukkan terdapat perbedaan kadar TIMP-1 dan MMP-9 yang signifikan antara kelompok uji dengan nilai p<0,001. Analisis post hoc LSD menunjukkan kadar TIMP-1 lebih tinggi dan kadar MMP-9 lebih rendah secara signifikan (p<0,05) dibandingkan kontrol.

Simpulan: Pemberian ekstrak krim daun srikaya dapat meningkatkan kadar TIMP-1 dan menurunkan kadar MMP-9 secara signifikan pada tikus wistar yang terpapar sinar UVB.

Keywords: ekstrak krim daun srikaya MMP-9 photoaging TIMP-1 UVB

References

  1. Mesa-Arango AC, Flórez-Muñoz SV, Sanclemente G. Mechanisms of skin aging. Iatreia. 2017;30(2):160–70.
  2. Farage MA, Miller KW, Elsner P, Maibach HI. Intrinsic and extrinsic factors in skin ageing: A review. Int J Cosmet Sci. 2008;30(2):87–95.
  3. Jenkins G. Molecular mechanisms of skin ageing. Mech Ageing Dev. 2002;123(7):801–10.
  4. Pittayapruek P, Meephansan J, Prapapan O, Komine M, Ohtsuki M. Role of matrix metalloproteinases in Photoaging and photocarcinogenesis. Int J Mol Sci. 2016;17(868):1–20.
  5. Brenneisen P, Sies H, Scharffetter-Kochanek K. Ultraviolet-B irradiation and matrix metalloproteinases: from induction via signaling to initial events. Ann N Y Acad Sci. 2002;973:31–43.
  6. Brennan M, Bhatti H, Nerusu KC, Bhagavathula N, Kang S, Fisher GJ, et al. Matrix metalloproteinase-1 is the major collagenolytic enzyme responsible for collagen damage in UV-irradiated human skin. Photochem Photobiol. 2003;78(1):43–8.
  7. Inomata S, Matsunaga Y, Amano S, Takada K, Kobayashi K, Tsunenaga M, et al. Possible involvement of gelatinases in basement membrane damage and wrinkle formation in chronically ultraviolet B-exposed hairless mouse. J Invest Dermatol. 2003;120(1):128–34.
  8. Goldman S, Shalev E. MMPS and TIMPS in ovarian physiology and pathophysiology. Front Biosci. 2004;9:2474–83.
  9. Yokose U, Hachiya A, Sriwiriyanont P, Fujimura T, Visscher MO, Kitzmiller WJ, et al. The endogenous protease inhibitor TIMP-1 mediates protection and recovery from Cutaneous Photodamage. J Invest Dermatol. 2012;132(12):2800–9.
  10. Mahawar V, Patidar K, Joshi N. DEVELOPMENT AND EVALUATION OF HERBAL ANTIAGING CREAM FORMULATION CONTAINING ANNONA SQUAMOSA LEAF EXTRACT. 2019;12(2).
  11. Shirwaikar A, Rajendran K, Kumar CD. In vitro antioxidant studies of Annona squamosa Linn. leaves. Indian J Exp Biol. 2004;42(8):803–7.
  12. Surendra G, Male A, Ratala RN. DPPH Free radical scavenging activity of Annona squamosa Linn leaf extracts. IOSR J Pharm Biol Sci (IOSR-JPBS. 2016;11(5):PP.
  13. Krishnan RD, Vijaya Kumar M, Sandeep Varma R, Babu U V, Dhanabal SP. Design and Development of Polyherbal Based Cream Formulation With Anti-Skin Ageing Benefits. Int J Pharm Sci Res. 2017;8(10):4147–58.
  14. Ponrasu T, Suguna L. Efficacy of Annona squamosa L in the synthesis of glycosaminoglycans and collagen during wound repair in streptozotocin induced diabetic rats. Biomed Res Int. 2014;2014.
  15. Meer S, Aslam S, Abbasi MSA, Tahir MA. Improvements in human skin texture and surface with the use of emulgels containing Annona squamosa L. fruit extract along with penetration enhancer. 2020;11(3):1054–61.
  16. Ma C, Chen Y, Chen J, Li X, Chen Y. A Review on Annona squamosa L.: Phytochemicals and Biological Activities. Am J Chin Med. 2017;45(5):933–64.
  17. Supriono S, Kalim H, Permatasari N, Susianti H. Moringa oleifera inhibits liver fibrosis progression by inhibition of α-smooth muscle actin, tissue inhibitors of metalloproteinases-1, and collagen-1 in rat model liver fibrosis. Open Access Maced J Med Sci. 2020;8(A):287–92.
  18. Bosch R, Philips N, Suárez-Pérez JA, Juarranz A, Devmurari A, Chalensouk-Khaosaat J, et al. Mechanisms of photoaging and cutaneous photocarcinogenesis, and photoprotective strategies with phytochemicals. Antioxidants. 2015;4(2):248–68.
  19. Daré RG, Nakamura C V., Ximenes VF, Lautenschlager SOS. Tannic acid, a promising anti-photoaging agent: Evidences of its antioxidant and anti-wrinkle potentials, and its ability to prevent photodamage and MMP-1 expression in L929 fibroblasts exposed to UVB. Free Radic Biol Med. 2020;160(August):342–55.
  20. Arpino V, Brock M, Gill SE. The role of TIMPs in regulation of extracellular matrix proteolysis. Matrix Biol. 2015;44–46:247–54.
  21. Mahawar V, Patidar K, Joshi N. Development And Evaluation Of Herbal Antiaging Cream Formulation Containing Annona Squamosa Leaf Extract. Asian J Pharm Clin Res. 2019;12(2):210–4.
  22. Wirya AY, Winaya KK, Darmaputra IGN, Suryawati N, Ayu IG, Dwi A, et al. Aplikasi topikal krim ekstrak ubi jalar ungu ( Ipomoea batatas l .) meningkatkan kadar superoxide dismutase ( SOD ) dan menurunkan kadar caspase-3 pada tikus ( Rattus norvegicus ) dengan photoaging akibat paparan sinar ultraviolet B. Intisari Sains Medis. 2023;14(2):544–51.
  23. Lee T-H, Chen J-L, Liu P-S, Tsai M-M, Wang S-J, Hsieh H-L. Rottlerin, a natural polyphenol compound, inhibits upregulation of matrix metalloproteinase-9 and brain astrocytic migration by reducing PKC-δ-dependent ROS signal. J Neuroinflammation. 2020;17(1):177.
  24. Saavedra N, Cuevas A, Cavalcante MF, Dörr FA, Saavedra K, Zambrano T, et al. Polyphenols from Chilean Propolis and Pinocembrin Reduce MMP-9 Gene Expression and Activity in Activated Macrophages. Biomed Res Int. 2016;2016:6505383.

How to Cite

Luh Nyoman Arya Wisma Ariani, Ketut Kwartantaya Winaya, I Gusti Agung Ayu Elis Indira, I Gusti Agung Ayu Praharsini, I Gusti Nyoman Darmaputra, & Ni Made Dwi Puspawati. (2023). Aplikasi topikal ekstrak krim daun srikaya (Annona squamosa L.) meningkatkan kadar tissue inhibitors of matrix metalloproteinase-1 dan menurunkan kadar matrix metalloproteinase-9 pada tikus wistar (Rattus norvegicus) yang terpapar sinar ultraviolet B. Intisari Sains Medis, 14(2), 852–857. https://doi.org/10.15562/ism.v14i2.1798
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Luh Nyoman Arya Wisma Ariani
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Ketut Kwartantaya Winaya
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I Gusti Agung Ayu Elis Indira
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I Gusti Agung Ayu Praharsini
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I Gusti Nyoman Darmaputra
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