Advancements in nanostructure applications for the anticancer delivery of natural compounds

Authors

  • Giri Babu Department of Pharmaceutics, G.R.R Siddhanth Pharmacy college, Hyderabad, T.S, 500003, India. Author
  • Tabibur R Department of Pharmaceutics, G.R.R Siddhanth Pharmacy college, Hyderabad, T.S, 500003, India. Author

Keywords:

Nanomedicine, Natural compounds, Drug delivery, Nanostructures, Drug discovery, Anticancer, bioavailability

Abstract

In drug design, compounds and extracts sourced from natural origins continue to play a crucial role, offering versatile interactions with enzymes, receptors, and metabolic pathways. Nanomedicine emerges as a powerful strategy for delivering these natural products, ensuring enhanced bioavailability, precise targeting, controlled release, and protection against physical alterations. The escalating interest in nano-delivery of natural compounds is evident through the growing number of scientific publications in this field. This review goes beyond merely showcasing successful examples of nano-delivery systems containing natural products; it aims to underscore the untapped potential within pharmaceutical and nutraceutical markets. Commencing with an exploration of plant-derived natural products and the methodologies employed for obtaining nanoformulations, this work delves into nanoparticulate drug delivery systems designed for the skin, central nervous, skeletal, cardiovascular systems, and diabetes. Despite notable advancements in preparing nanomedicines featuring specific dietary polyphenols, research focused on crude extracts or standardized fractions remains limited. Many plants possessing well-documented therapeutic properties, as listed in pharmacopoeias, are yet to fully harness the benefits of nanotechnological advancements. This review emphasizes the significance of developing adequate nanoformulations, with the potential to elevate certain plants from dietary supplements to pharmaceutical status by improving their bioavailability and efficacy. The exploration of untapped opportunities within the nexus of natural compounds and nanomedicine is vital for advancing drug delivery systems and expanding the repertoire of therapeutic options.

Downloads

Download data is not yet available.

References

Atanasov AG, Waltenberger B, Pferschy-Wenzig EM, et al. Discovery and resupply of pharmacolog-ically active plant-derived natural products: A re-view. Biotechnol Adv. 2015; 33(8): 1582- 614.

Shrinidhi, A., & Perrin, C. L. (2021). Cyclohexeno [3, 4] cyclodec-1, 5-diyne-3-ene: A Convenient Enediyne. Organic letters, 23(17), 6911-6915.

Cragg, G. M., & Newman, D. J. (2013). Natural products: a continuing source of novel drug leads. Biochimica et Biophysica Acta (BBA)-General Sub-jects, 1830(6), 3670-3695.

Anand, A., Komati, A., Katragunta, K., Shaik, H., Nagendla, N. K., Kuncha, M., ... & Tiwari, A. K. (2021). Phytometabolomic analysis of boiled rhi-zome of Nymphaea nouchali (Burm. f.) using UPLC-Q-TOF-MSE, LC-QqQ-MS & GC-MS and evalua-tion of antihyperglycemic and antioxidant activi-ties. Food Chemistry, 342, 128313.

Hewitt, C. S., Abutaleb, N. S., Elhassanny, A. E., No-centini, A., Cao, X., Amos, D. P., ... & Flaherty, D. P. (2021). Structure-activity relationship studies of acetazolamide-based carbonic anhydrase inhibi-tors with activity against Neisseria gonorrhoeae. ACS infectious diseases, 7(7), 1969-1984.

Khoddami, A., Wilkes, M. A., & Roberts, T. H. (2013). Techniques for analysis of plant phenolic compounds. Molecules, 18(2), 2328-2375.

Park, K. M., Shrinidhi, A., Murray, J., & Kim, K. (2018). Guest?responsive, non?proteolytic harvest of a cell?sheet using controllable host?guest chem-istry. Israel Journal of Chemistry, 58(3-4), 461-465.

Abuajah CI, Ogbonna AC, Osuji CM. Functional components and medicinal properties of food: a review. J Food Sci Technol 2015; 52(5): 2522-9.

Hariprasad KS, Anand A, Rathod BB, Zehra A, Ti-wari AK, Prakasham RS, Raju BC. Neoteric Synthe-sis and Biological Activities of Chromenopyra-zolones, Tosylchromenopyrazolones, Benzo-ylcoumarins. ChemistrySelect. 2017 Nov 13;2(32):10628-34

Aljuffali IA, Huang CH, Fang JY. Nanomedical Strat-egies for Targeting Skin Microbiomes. Curr Drug Metab 2015; 16(4): 255-71.

Kishor C, Arya T, Reddi R, Chen X, Saddanapu V, Marapaka AK, Gumpena R, Ma D, Liu JO, Addlagatta A. Identification, biochemical and structural evalu-ation of species-specific inhibitors against type I methionine aminopeptidases. Journal of medicinal chemistry. 2013 Jul 11;56(13):5295-305.

Pei RS, Zhou F, Ji BP, et al. Evaluation of combined antibacterial effects of eugenol, cinnamaldehyde, thymol, and carvacrol against E. coli with an im-proved method. J Food Sci 2009; 74(7): M379-83.

Jan AT, Kamli MR, Murtaza I, et al. Dietary flavo-noid quercetin and associated health benefits-an overview. Food Reviews International 2010; 26(3): 302-17.

Komati A, Anand A, Shaik H, Mudiam MK, Babu KS, Tiwari AK. Bombax ceiba (Linn.) calyxes amelio-rate methylglyoxal-induced oxidative stress via modulation of RAGE expression: identification of active phytometabolites by GC-MS analysis. Food & function. 2020;11(6):5486-97.

Marquez FZ, Markus MA, Morris BJ. Resveratrol: Cellular actions of a potent natural chemical that confers a diversity of health benefits. Int J Biochem Cell Biol 2009; 41 (11): 2125-2128.

Sinico C, Pireddu R, Pini E, et al. Enhancing topical delivery of resveratrol through a nanosizing ap-proach. Planta Med 2016; [Epub ahead of print].

Chitturi KL, Garimella S, Marapaka AK, Kudle KR, Merugu R. Single pot green synthesis, characteriza-tion, antitumor antibacterial, antioxidant activity of bimetallic silver and copper nanoparticles using fruit pulp of palmyra fruit. Journal of Bionanosci-ence. 2018 Apr 1;12(2):284-9.

Aras A, Khokhar AR, Qureshi MZ, et al. Targeting cancer with nano-bullets: curcumin, EGCG, resvera-trol and quercetin on flying carpets. Asian Pac J Cancer Prev 2014; 15(9): 3865-71.

Abutaleb NS, Shrinidhi A, Bandara AB, Seleem MN, Flaherty DP. Evaluation of 1, 3, 4-Thiadiazole Car-bonic Anhydrase Inhibitors for Gut Decolonization of Vancomycin-Resistant Enterococci. ACS Medici-nal Chemistry Letters. 2023 Mar 21;14(4):487-92.

Suzuki T, Hara H. Role of flavonoids in intestinal tight junction regulation. J Nutr Biochem 2011; 22(5): 401-8.

Chen F, Wen Q, Jiang J, et al. Could the gut microbi-ota reconcile the oral bioavailability conundrum of traditional herbs? J Ethnopharmacol 2016; 179: 253-64.

Pavan Kumar P, Siva B, Anand A, Tiwari AK, Vekata Rao C, Boustie J, Suresh Babu K. Isolation, semi-synthesis, free-radicals scavenging, and advanced glycation end products formation inhibitory con-stituents from Parmotrema tinctorum. Journal of Asian Natural Products Research. 2020 Oct 2;22(10):976-88.

Ozdal T, Sela DA, Xiao J, et al. The reciprocal inter-actions between polyphenols and gut microbiota and effects on bioaccessibility. Nutrients 2016; 8(2): 78.

Liu RH. Health benefits of fruit and vegetables are from additive and synergistic combinations of phytochemicals. Am J Clin Nutr 2003; 78(3 suppl): 517S-20S.

Anand A, Priyanka U, Nayak VL, Zehra A, Babu KS, Tiwari AK. Nutritional composition and antioxida-tive stress properties in boiled tuberous rhizome of Neel Kamal (Nymphaea nouchali Burm. f.). Indi-an Journal of Natural Products and Resources (IJNPR)[Formerly Natural Product Radiance (NPR)]. 2019 Jun 9;10(1):59-67.

Wink M. Evolutionary advantage and molecular modes of action of multi-component mixtures used in phytomedicine. Curr Drug Metab 2008; 9(10): 996-1009.

Gostner JM, Wrulich OA, Jenny M, et al. An update on the strategies in multicomponent activity moni-toring within the phytopharmaceutical field. BMC Complementary and Alternative Medicine 2012; 12: 18.

Cavallini G, Straniero S, Donati A, Bergamini E. Resveratrol requires red wine polyphenols for op-timum antioxidant activity. J Nutr Health Aging 2016; 20(5): 540-5.

Sailakshmi AS, Anand A, Madhusudana K, Nayak VL, Zehra A, Babu KS, Tiwari AK. Diospyros mel-anoxylon (Roxb.): A tribal fruit that maintains euglycemic state after consumption and cools oxi-dative stress. Indian Journal of Natural Products and Resources (IJNPR)[Formerly Natural Product Radiance (NPR)]. 2018 Dec 28;9(3):194-203.

Clifford MN, Brown JE. Dietary Flavonoids and Health - Broadening the Perspective. In: Andersen ØM, Markham KR, Eds. Flavonoids: chemistry, bi-ochemistry, and applications, Taylor and Francis, Boca Raton, 2006; pp. 319-370, 2006.

Watkins R, Wu L, Zhang C, et al. Natural product-based nanomedicine: recent advances and issues. Int J Nanomedicine 2015; 10 6055-74.

Priyanka U, Anand A, Bhargavi K, Zehra A, Tiwari AK. Presence of postprandial antidysmetabolic and antioxidative stress properties in aqueous metha-nol extract of seeds and tuber of aquatic food plant Nymphaea nouchali (Burm. f.). Cogent Food & Ag-riculture. 2016 Dec 31;2(1):1249172.

PubMed accessed June 1st, 2016; http: //www.ncbi.nlm.nih.gov/pubmed/?term=nanomedicine

Bilia AR, Isacchi B, Righeschi C, et al. Flavonoids loaded in nanocarriers: an opportunity to increase oral bioavailability and bioefficacy. Food and Nu-trition Sciences 2014; 5: 1212-1227.

Aeluri R, Ganji RJ, Marapaka AK, Pillalamarri V, Alla M, Addlagatta A. Highly functionalized tetra-hydropyridines are cytotoxic and selective inhibi-tors of human puromycin sensitive aminopepti-dase. European Journal of Medicinal Chemistry. 2015 Dec 1;106:26-33.

Zhao C, Wang Y, Su Y, et al. Inclusion complexes of isoflavones with two commercially available den-drimers: solubility, stability, structures, release behaviors, cytotoxicity, and anti-oxidant activities. Int J Pharm 2011; 421: 301-309.

Komati A, Anand A, Nagendla NK, Madhusudana K, Mudiam MK, Babu KS, Tiwari AK. Bombax ceiba calyx displays antihyperglycemic activity via im-proving insulin secretion and sensitivity: Identifi-cation of bioactive phytometabolomes by UPLC?QTof?MS/MS. Journal of Food Science. 2022 Apr;87(4):1865-81.

Jin HH, Lu Q, Jiang JG. Curcumin liposomes pre-pared with milk fat globule membrane phospholip-ids and soybean lecithin. J Dairy Sci. 2016; 99(3): 1780-90.

Zheng B, Yang S, Fan C, et al. Oleic acid derivative of polyethylenimine-functionalized proliposomes for enhancing oral bioavailability of extract of Ginkgo biloba. Drug Deliv 2016; 23(4): 1194-203.

Deepthi S, Anusha K, Anand A, Manasa A, Babu KS, Mudiam MK, Tiwari AK. Micronutrients and phy-tochemicals content in various rice (Oryza sativa Linn.) samples control carbohydrate digestion var-iedly and present differential antioxidant activities: an in vitro appraisal.

Chat OA, Najar MH, Mir MA, et al. Effects of surfac-tant micelles on solubilization and DPPH radical scavenging activity of rutin. J of Colloid Interface Sci 2011; 355(1): 140-149.

Shrinidhi A, Perrin CL. Nucleophilic Addition of Enolates to 1, 4-Dehydrobenzene Diradicals De-rived from Enediynes: Synthesis of Functionalized Aromatics. ACS omega. 2022 Jun 23;7(26):22930-7.

Choi YA, Yoon YH, Choi K, et al. Enhanced oral bio-availability of morin administered in mixed mi-celle formulation with PluronicF127 and Tween80 in rats. Biol Pharm Bull 2015; 38(2): 208-17.

Anand A, Priyanka U, Madhusudana K, Nayak VL, Zehra A, Babu KS, Tiwari AK. Administration of roasted barley and roasted horse gram powders pacified chronic sucrose-induced dysglycemia and dyslipidemia in rats and exerted In Vitro potent an-tioxidative stress effect. Pharmacognosy Magazine. 2018;14(59s).

Jourghanian P, Ghaffari S, Ardjmand M, et al. Sus-tained release curcumin loaded solid lipid nano-particles. Adv Pharm Bull 2016; 6(1): 17-21.

Butera R, Shrinidhi A, Kurpiewska K, Kalinowska-T?u?cik J, Dömling A. Fourfold symmetric MCR's via the tetraisocyanide 1, 3-diisocyano-2, 2-bis (isocyanomethyl) propane. Chemical Communica-tions. 2020;56(73):10662-5.

Radhakrishnan R, Kulhari H, Pooja D, et al. Encap-sulation of biophenolic phytochemical EGCG with-in lipid nanoparticles enhances its stability and cy-totoxicity against cancer. Chem Phys Lipids.2016; pii: S0009-3084(16)30058-5.

Kumar TK, Siva B, Anand A, Anusha K, Mohabe S, Reddy AM, Le Devehat F, Tiwari AK, Boustie J, Ba-bu KS. Comprehensive Lichenometabolomic Explo-ration of Ramalina conduplicans Vain Using UPLC-Q-ToF-MS/MS: An Identification of Free Radical Scavenging and Anti-Hyperglycemic Constituents. Molecules. 2022 Oct 9;27(19):6720.

Tiwari G, Tiwari R, Rai AK. Cyclodextrins in deliv-ery systems: applications. J Pharm Bioallied Sci 2010; 2(2): 72-79.

Ganji RJ, Reddi R, Gumpena R, Marapaka AK, Arya T, Sankoju P, Bhukya S, Addlagatta A. Structural ba-sis for the inhibition of M 1 family aminopeptidas-es by the natural product actinonin: Crystal struc-ture in complex with E. coli aminopeptidase N. Protein Science. 2015 May;24(5):823-31.

Soica C, Danciu C, Savoiu-Balint G, et al. Betulinic acid in complex with a gamma-cyclodextrin deriva-tive decreases proliferation and in vivo tumor de-velopment of non-metastatic and metastatic B164A5 cells. Int J Mol Sci 2014; 15(5): 8235-55.

Srujana MS, Thota RS, Anand A, Anusha K, Zehra A, Prasad K, Babu KS, Tiwari AK. Raphanus sativus (Linn.) fresh juice priming moderates sucrose-induced postprandial glycemia as well as post-prandial glycemic excursion in rats.

Antal DS, Pinzaru I, Coricovac D, et al. Changes in the antiinflammatory activity of aurone and chal-cone class flavonoids from Cotinus coggygria ex-tracts after complexation with cyclodextrins.Planta Medica 2015; 81(16): PM_136.

Sueishi Y. Ishikawa M, Yoshioka D, et al. Oxygen radical absorbance capacity (ORAC) of cyclodex-trin-solubilized flavonoids, resveratrol and astaxanthin as measured with the ORAC-EPR meth-od. J Clin Biochem Nutr 2012; 50(2): 127-132.

Egharevba GO, Dosumu OO, Oguntoye SO, Njinga NS, Dahunsi SO, Hamid AA, Anand A, Amtul Z, Pri-yanka U. Corrigendum to "Antidiabetic, antioxidant and antimicrobial activities of extracts of Tephro-sia bracteolata leaves"[Heliyon 5 (8)(August 2019) e02275]. Heliyon. 2019 Sep 1;5(9).

Saraf S, Gupta A, Alexander A, et al. Advancements and avenues in nanophytomedicines for better pharmacological responses. J Nanosci Nanotechnol 2015; 15(6): 4070-9.

Hewitt CS, Abutaleb NS, Elhassanny AE, Nocentini A, Cao X, Amos DP, Youse MS, Holly KJ, Marapaka AK, An W, Kaur J. Structure-activity relationship studies of acetazolamide-based carbonic anhy-drase inhibitors with activity against Neisseria gonorrhoeae. ACS infectious diseases. 2021 Mar 25;7(7):1969-84.

Nam JS, Sharma AR, Nguyen LT, et al. Application of bioactive quercetin in oncotherapy: from nutri-tion to nanomedicine. Molecules 2016; 21(1): E108.

Saraceno R, Chiricozzi A, Gabellini M, et al. Emerg-ing applications of nanomedicine in dermatology. Skin Res Technol 2013; 19(1): e13-19.

Yin D, Hao J, Jin R, Yi Y, Bodduluri SR, Hua Y, Anand A, Deng Y, Haribabu B, Egilmez NK, Sauter ER. Epi-dermal Fatty Acid?Binding Protein Mediates Depil-atory-Induced Acute Skin Inflammation. Journal of investigative dermatology. 2022 Jul 1;142(7):1824-34.

Zhao YZ, Lu CT, Zhang Y, et al. Selection of high efficient transdermal lipid vesicle for curcumin skin delivery. Int J Pharm 2013; 454(1): 302-9.

Siddique MI, Katas H, Iqbal Mohd Amin MC, et al. Minimization of local and systemic adverse effects of topical glucocorticoids by nanoencapsulation: in vivo safety of hydrocortisone-hydroxytyrosol loaded chitosan nanoparticles. J Pharm Sci. 2015; 104(12): 4276- 86.

Srujana MS, Thota RS, Anand A, Anusha K, Zehra A, Prasad K, Babu KS, Tiwari AK. Raphanus sativus (Linn.) fresh juice priming moderates sucrose-induced postprandial glycemia as well as post-prandial glycemic excursion in rats.

Biju SS, Ahuja A, Khar RK, et al. Formulation and evaluation of an effective pH balanced topical an-timicrobial product containing tea tree oil. Phar-mazie 2005; 60(3): 208-11.

Salomon E, Schmitt M, Marapaka AK, Stamogiannos A, Revelant G, Schmitt C, Alavi S, Florent I, Ad-dlagatta A, Stratikos E, Tarnus C. Aminobenzosu-berone scaffold as a modular chemical tool for the inhibition of therapeutically relevant M1 ami-nopeptidases. Molecules. 2018 Oct 11;23(10):2607.

Manju S, Malaikozhundan B, Vijayakumar S, et al. Antibacterial, antibiofilm and cytotoxic effects of Nigella sativa essential oil coated goldnanoparti-cles. Microb Pathog 2016; 91: 129-35.

Shrinidhi A. Reaction of Henry adducts with aque-ous sodium borohydride. Cogent Chemistry. 2015 Dec 31;1(1):1080210.

Garg A, Singh S. Targeting of eugenol-loaded solid lipid nanoparticles to the epidermal layer of hu-man skin. Nanomedicine (Lond). 2014; 9(8): 1223-38.

Anusha K, Anand A, Babu KS, Tiwari AK. Bombax ceiba calyces regulate carbohydrate and lipid di-gesting enzyme's actions, display insulin sensitiz-ing and antioxidant activities in vitro: A nutritional and phytochemicals examination.

Anghel I, Holban AM, Andronescu E, et al. Efficient surface functionalization of wound dressings by a phytoactive nanocoating refractory to Candida al-bicans biofilm development. Biointerphases 2013; 8(1): 12.

Qian Y, Yao J, Russel M, et al. Characterization of green synthesized nano-formulation (ZnO-A. vera) and their antibacterial activity against pathogens. Environ Toxicol Pharmacol 2015; 39(2):736-46.

Pan-In P, Wongsomboon A, Kokpol C, et al. Depos-iting ?mangostin nanoparticles to sebaceous gland area for acne treatment. J Pharmacol Sci 2015;129(4): 226-32.

Pillalamarri V, Arya T, Haque N, Bala SC, Marapaka AK, Addlagatta A. Discovery of natural product ovalicin sensitive type 1 methionine aminopepti-dases: molecular and structural basis. Biochemical Journal. 2019 Mar 29;476(6):991-1003.

Luo DQ, Guo JH, Wang FJ, et al. Anti-fungal efficacy of polybutylcyanoacrylate nanoparticles of allicin and comparison with pure allicin. J Biomater Sci Polym Ed 2009; 20(1): 21-31.

Liu CH, Huang HY. In vitro anti-propionibacterium activity by curcumin containing vesicle system. Chem Pharm Bull (Tokyo) 2013; 61(4): 419-25.

Bala SC, Haque N, Pillalamarri V, Reddi R, Kashyap R, Marapaka AK, Addlagatta A. Discovery of a new class of type 1 methionine aminopeptidases that have relaxed substrate specificity. International journal of biological macromolecules. 2019 May 15;129:523-9.

Adahoun MA, Al-Akhras MH, Jaafar MS, et al. En-hanced anticancer and antimicrobial activities of curcumin nanoparticles. Artif Cells Nanomed Bio-technol 2016; 8: 1-10.

Perrin CL, Shrinidhi A, Burke KD. Isotopic-perturbation NMR study of hydrogen-bond sym-metry in solution: temperature dependence and comparison of OHO and ODO hydrogen bonds. Journal of the American Chemical Society. 2019 Oct 8;141(43):17278-86.

Caon T, Mazzarino L, Simões CM, et al. Lipid- and polymer-based nanostructures for cutaneous de-livery of curcumin. AAPS PharmSciTech 2016; [Epub ahead of print].

Rodríguez-Morató J, Boronat A, Kotronoulas A, et al. Metabolic disposition and biological signifi-cance of simple phenols of dietary origin: hydroxy-tyrosol and tyrosol. Drug Metab Rev 2016; 17: 1- 19. [Epub ahead of print].

Marapaka AK, Nocentini A, Youse MS, An W, Holly KJ, Das C, Yadav R, Seleem MN, Supuran CT, Flaher-ty DP. Structural characterization of thiadiazolesul-fonamide inhibitors bound to neisseria gonorrhoe-ae ?-carbonic anhydrase. ACS Medicinal Chemistry Letters. 2022 Dec 6;14(1):103-9.

Crisante F, Taresco V, Donelli G, et al. Antioxidant hydroxytyrosol-based polyacrylate with antimi-crobial and antiadhesive activity versus Staphylo-coccus epidermidis. Adv Exp Med Biol 2015; [Epub ahead of print].

Guler E, Barlas FB, Yavuz M, et al. Bio-active nanoemulsions enriched with gold nanoparticle, marigold extracts and lipoic acid: in vitro investi-gations. Colloids Surf B Biointerfaces 2014; 121:299-306.

Marapaka AK, Sankoju P, Zhang G, Ding Y, Ma C, Pillalamarri V, Sudhakar R, Reddi B, Sijwali PS, Zhang Y, Addlagatta A. Development of pep-tidomimetic hydroxamates as PfA-M1 and PfA-M17 dual inhibitors: Biological evaluation and structur-al characterization by cocrystallization. Chinese Chemical Letters. 2022 May 1;33(5):2550-4.

Arana L, Salado C, Vega S, et al. Solid lipid nanopar-ticles for delivery of Calendula officinalis extract. Colloids Surf B Biointerfaces 2015; 135: 18-26.

Arsi? I, Tadi? V, Vlaovi? D, et al. Preparation of novel apigeninenriched, liposomal and non-liposomal, antiinflammatory topical formulations as substitutes for corticosteroid therapy. Phytother Res 2011; 25(2): 228-33.

Marapaka AK, Pillalamarri V, Gumpena R, Haque N, Bala SC, Jangam A, Addlagatta A. Discovery, Struc-tural and Biochemical Studies of a rare Glu/Asp Specific M1 Class Aminopeptidase from Legionella pneumophila. International journal of biological macromolecules. 2018 Dec 1;120:1111-8.

Kwon MC, Choi WY, Seo YC, et al. Enhancement of the skinprotective activities of Centella asiatica L. Urban by a nanoencapsulation process. J Biotech-nol 2012; 157(1): 100-6.

Robberecht R, Caldwell MM. Protective mechanism and acclimation to solar ultraviolet-B radiation in Oenothera stricta. Plant Cell Environment, 1983, 6(6): 477-485.

Reddi R, Ganji RJ, Marapaka AK, Bala SC, Yerra NV, Haque N, Addlagatta A. Puromycin, a selective in-hibitor of PSA acts as a substrate for other M1 fam-ily aminopeptidases: Biochemical and structural basis. International Journal of Biological Macro-molecules. 2020 Dec 15;165:1373-81.

Markham KR. Distribution of flavonoids in the lower plants and its evolutionary significance. In: Harborne JB, Ed. The flavonoids - Advances in re-search since 1980. Springer Science and Business Media, Dordrecht, 2013; pp. 427-468.

Chaiprasongsuk A, Onkoksoong T, Pluemsamran T, et al. Photoprotection by dietary phenolics against melanogenesis induced by UVA through Nrf2-dependent antioxidant responses. Redox Biol 2016; 8: 79-90.

Addlagatta A, Marapaka AK. Development of selec-tive inhibitors against malarial M1 family ami-nopeptidase. inacta crystallographica a-foundation and advances 2017 jan 1 (vol. 73, pp. c237-c237). 2 abbey sq, chester, ch1 2hu, england: int union crys-tallography.

Saewan N, Jimtaisong A. Photoprotection of natural flavonoids. J App Pharm Sci, 2013; 3 (09): 129-141.

Harwansh RK, Mukherjee PK, Bahadur S, et al. En-hanced permeability of ferulic acid loaded nanoemulsion based gel through skin against UVA mediated oxidative stress. Life Sci 2015; 141: 202-11.

Addlagatta A, Gumpena R, Marapaka A, Allanki AD, Jun JH, Sijwali PS, Malhotra SV. Study of quinoxa-line-based new compounds against aminopepti-dase N, and Plasmodium falciparum malarial para-site. inabstracts of papers of the american chemical society 2014 mar 16 (vol. 247). 1155 16th st, nw, washington, dc 20036 usa: amer chemical soc.

Kelsey NA, Wilkins HM, Linseman DA. Nutraceuti-cal antioxidants as novel neuroprotective agents. Molecules 2010; 15(11): 7792- 814.

Chakraborty C, Sarkar B, Hsu CH, et al. Future pro-spects of nanoparticles on brain targeted drug de-livery. J Neurooncol 2009; 93(2): 285-6.

Kim KL, Sung G, Sim J, Murray J, Li M, Lee A, Shrinidhi A, Park KM, Kim K. Supramolecular latch-ing system based on ultrastable synthetic binding pairs as versatile tools for protein imaging. Nature communications. 2018 Apr 27;9(1):1712.

Gao H, Pang Z, Jiang X. Targeted delivery of nano-therapeutics for major disorders of the central nervous system. Pharm Res 2013; 30(10): 2485-98.

Noorafshan A, Ashkani-Esfahani S. A review of therapeutic effects of curcumin. Curr Pharm Des 2013; 19(11): 2032-46.

Li M, Lee A, Kim KL, Murray J, Shrinidhi A, Sung G, Park KM, Kim K. Autophagy caught in the act: a supramolecular FRET pair based on an ultrasta-ble synthetic host-guest complex visualizes au-tophagosome-lysosome fusion. Angewandte Chemie. 2018 Feb 19;130(8):2142-7.

Anand P, Kunnumakkara AB, Newman RA, et al. Bioavailability of curcumin: problems and prom-ises. Mol Pharm 2007; 4(6): 807-18.

Tsai YM, Chien CF, Lin LC, et al. Curcumin and its nanoformulation: the kinetics of tissue distribu-tion and blood-brain barrier penetration. Int J Pharm 2011; 416(1): 331-8.

Djiokeng Paka G, Doggui S, Zaghmi A, et al. Neu-ronal uptake and neuroprotective properties of curcumin-loades nanoparticles on SKN-SH cell line: role of poly (lactide-co-glycolide) polymeric matrix composition. Mol Pharm 2015.

Murray J, Sim J, Oh K, Sung G, Lee A, Shrinidhi A, Thirunarayanan A, Shetty D, Kim K. Enrichment of specifically labeled proteins by an immobi-lized host molecule. Angewandte Chemie Interna-tional Edition. 2017 Feb 20;56(9):2395-8.

Ding Y, Qiao Y, Wang M, et al. Enhanced neuro-protection of acetyl-11-keto-?-boswellic acid (AKBA) - loaded O-carboxymethyl chitosan na-noparticles through antioxidant and anti-inflammatory pathways. Mol Neurobiol 2015; 1-12.

Richard T, Pawlus AD, Iglésias ML, et al. Neuro-protective properties of resveratrol and deriva-tives. Ann N Y Acad Sci 2011; 1215: 103-8.

Park KM, Baek K, Ko YH, Shrinidhi A, Murray J, Jang WH, Kim KH, Lee JS, Yoo J, Kim S, Kim K. Mono?allyloxylated cucurbit [7] uril acts as an unconventional amphiphile to form light?responsive vesicles. Angewandte Chemie. 2018 Mar 12;130(12):3186-90.

Neves AR, Queiroz JF, Reis S. Brain-targeted de-livery of resveratrol using solid lipid nanoparti-cles functionalized with apolipoprotein E. J Nanobiotechnology 2016; 14: 27.

Jose S, Anju SS, Cinu TA, et al. In vivo pharmaco-kinetics and biodistribution of resveratrol-loaded solid lipid nanoparticles for brain delivery. Int J Pharm 2014; 474(1-2): 6-13.

Park KM, Kim J, Ko YH, Ahn Y, Murray J, Li M, Shrinidhi A, Kim K. Dye-cucurbit [n] uril com-plexes as sensor elements for reliable pattern recognition of biogenic polyamines. Bulletin of the Chemical Society of Japan. 2018 Jan 15;91(1):95-9.

Reyes-Escogido Mde L, Gonzalez-Mondragon EG, VazquezTzompantzi E. Chemical and pharmaco-logical aspects of capsaicin. Molecules 2011; 16(2): 1253-70.

Bode AM, Dong Z. The two faces of capsaicin. Cancer Res 2011; 71(8): 2809-14.

An J, Kim S, Shrinidhi A, Kim J, Banna H, Sung G, Park KM, Kim K. Purification of protein therapeu-tics via high-affinity supramolecular host-guest interactions. Nature Biomedical Engineering. 2020 Nov;4(11):1044-52.

Sun F, Xiong S, Zhu Z. Dietary capsaicin protects cardiometabolic organs from dysfunction. Nutri-ents 2016; 8(5).

Zhu Y, Wang M, Zhang J, et al. Improved oral bio-availability of capsaicin via liposomal nanofor-mulation: preparation, in vitro drug release and pharmacokinetics in rats. Arch Pharm Res 2015; 38(4): 512-21.

Li M, Kim S, Lee A, Shrinidhi A, Ko YH, Lim HG, Kim HH, Bae KB, Park KM, Kim K. Bio-orthogonal supramolecular latching inside live animals and its application for in vivo cancer imaging. ACS applied materials & interfaces. 2019 Nov 5;11(47):43920-7.

Peng W, Jiang XY, Zhu Y, et al. Oral delivery of capsaicin using MPEG-PCL nanoparticles. Acta Pharmacol Sin 2015; 36(1): 139- 48.

Raza K, Shareef MA, Singal P, et al. Lipid-based capsaicin-loaded nano-colloidal biocompatible topical carriers with enhanced analgesic potential and decreased dermal irritation. J Liposome Res 2014; 24(4): 290-6.

Li M, Lee A, Kim S, Shrinidhi A, Park KM, Kim K. Cucurbit [7] uril-conjugated dyes as live cell im-aging probes: investigation on their cellular up-take and excretion pathways. Organic & Bio-molecular Chemistry. 2019;17(25):6215-20.

Peng X, Zhou Y, Han K, et al. Characterization of cubosomes as a targeted and sustained transder-mal delivery system for capsaicin. Drug Des Devel Ther 2015; 9: 4209-18.

Sarwa KK, Mazumder B, Rudrapal M, et al. Poten-tial of capsaicinloaded transfersomes in arthritic rats. Drug Deliv 2015; 22(5): 638- 46.

Chandrasekhar S, Shrinidhi A. Selective aldehyde reduction in ketoaldehydes with NaBH4-Na2CO3-H2O at room temperatures. Synthetic Communi-cations. 2014 Jul 18;44(14):2051-6.

Siddiqui MZ. Boswellia serrata, a potential anti-inflammatory agent: an overview. Indian J Pharm Sci 2011; 73(3): 255-61.

Mehta M, Satija S, Arun N, et al. Nanotechnologies for boswellic acids. Am J Drug Discov Dev 2014; 4: 1-11.

Chandrasekhar S, Shrinidhi A. Useful extensions of the Henry reaction: expeditious routes to ni-troalkanes and nitroalkenes in aqueous media. Synthetic Communications. 2014 Oct 18;44(20):3008-18.

Goel A, Ahmad FJ, Singh RM, et al. 3-acetyl-11-keto-betaboswellic acid loaded-polymeric na-nomicelles for topical antiinflammatory and anti-arthritic activity. J Pharm Pharmacol 2010;62(2): 273-8.

Al Disi SS, Anwar MA, Eid AH. Anti-hypertensive herbs and their mechanisms of action: part I. Front Pharmacol 2016; 6: 323.

Boltjes A, Shrinidhi A, van de Kolk K, Herdtweck E, Dömling A. Gd?TEMDO: Design, Synthesis, and MRI Application. Chemistry-A European Journal. 2016 May 23;22(22):7352-6.

Munin A, Edwards-Lévy F. Encapsulation of natu-rak polyphenolic compounds; a review. Pharma-ceutics 2011; 3(4): 793-829.

Jain A, Kesharwani P, Garg NK, et al. Nano-constructed carriers loaded with antioxidant: boon for cardiovascular system. Curr Pharm Des 2015; 21(30): 4456-64.

Perrin CL, Shrinidhi A, Burke KD. Isotopic-perturbation NMR study of hydrogen-bond sym-metry in solution: temperature dependence and comparison of OHO and ODO hydrogen bonds. Journal of the American Chemical Society. 2019 Oct 8;141(43):17278-86.

Smoliga JM, Baur JA, Hausenblas HA. Resveratrol and health - A comprehensive review of human clinical trials. Mol Nutr Food Res 2011; 55: 1129-1141.

Neves AR, Martins S, Segundo MA, et al. Na-noscale delivery of resveratrol towards en-hancement of supplements and nutraceuticals. Nutrients 2016; 8(3).

Shrinidhi A. Diels?Alder Reaction with Hydro-philic Dienes and Dienophiles. ChemistrySelect. 2016 Aug 1;1(12):3016-21.

Boots AW, Haenen GR, Bast A. Health effects of quercetin: from antioxidant to nutraceutical. Eur J Pharmacol 2008; 585(2-3): 325- 37.

Jain S, Jain AK, Pohekar M, et al. Novel self-emulsifying formulation of quercetin for im-proved in vivo antioxidant potential: implica-tions for drug-induced cardiotoxicity and ne-phrotoxicity. Free Radic Biol Med 2013; 65: 117-30. Nanoscale Delivery Systems Current Pharma-ceutical Design, 201.

Chandrasekhar S, Shrinidhi A. Chloral hydrate as a water carrier for the efficient deprotection of acetals, dithioacetals, and tetrahydropyranyl ethers in organic solvents. Synthetic Communica-tions. 2014 Jul 3;44(13):1904-13.

Wan K, Sun L, Hu X, Yan Z, Yonghong Z, Zhang X, et al. Novel nanoemulsion based lipid nanosys-tems for favorable in vitro and in vivo character-istics of curcumin. Int J Pharm 2016; 504(1-2): 80-8.

Li S, Fang C, Zhang J, Liu B, Wei Z, Fan X, et al. Catanionic lipid nanosystems improve pharma-cokinetics and anti-lung cancer activity of cur-cumin. Nanomedicine 2016; 12(6): 1567-79.

Sarika PR, James NR, Kumar PR, Raj DK. Galacto-sylated alginatecurcumin micelles for enhanced delivery of curcumin to hepatocytes. Int J Biol Macromol 2016; 86: 1-9.

Hwang BW, Kim YE, Kim M, Han S, Bok S, Park KM, Shrinidhi A, Kim KS, Ahn GO, Hahn SK. Su-pramolecular hydrogels encapsulating bioengi-neered mesenchymal stem cells for ischemic therapy. RSC advances. 2018;8(34):18771-5.

Liu L, Sun L, Wu Q, Guo W, Li L, Chen Y, et al. Cur-cumin loaded polymeric micelles inhibit breast tumor growth and spontaneous pulmonary me-tastasis, Int J Pharm 2013; 443(1-2): 175-82.

Gong C, Deng S, Wu Q, Xiang M, Wei X, Li L, et al. Improving antiangiogenesis and anti-tumor activ-ity of curcumin by biodegradable polymeric mi-celles. Biomaterials 2013; 34(4): 1413-32.

Perrin CL, Shrinidhi A. Enthalpic and entropic contributions to the basicity of cycloalkyla-mines. Chemical science. 2020;11(32):8489-94.

Gou Q, Liu L, Wang C, Wu Q, Sun L, Yang X, et al. Polymeric nanoassemblies entrapping curcumin overcome multidrug resistance in ovarian cancer. Colloids Surf B Biointerfaces 2015; 126: 26-34.

Shrinidhi A. 'Reverse Micellar Aggregates' in Phase Transfer Catalyzed Nucleophilic Dis-placement Reactions. ChemistrySelect. 2016 Jul 1;1(10):2479-84.

Petrov PD, Yoncheva K, Gancheva V, Konstanti-nov S, Trzebicka B. Multifunctional block copol-ymer nanocarriers for co-delivery of silver nano-particles and curcumin: Synthesis and enhanced efficacy against tumor cells. Eur Polym J 2016; 8: 24-33.

Shrinidhi A. Microwave-assisted chemoselective reduction of conjugated nitroalkenes to nitroal-kanes with aqueous tri-n-butyltin hydride. Cogent Chemistry. 2015 Dec 31;1(1):1061412.

Downloads

Published

02-05-2024

Issue

Vol. 4 No. 2 (2024): Volume 4 Issue 2

Section

Review Article

Categories

License

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

License Terms

This is an open-access article published in the International Journal of Research in Pharmaceutical Sciences and Technology (IJRPST) by Rubatosis Publications.

It is distributed under the terms of the Creative Commons Attribution 4.0 International License (CC BY 4.0), which permits unrestricted use, distribution, reproduction, and adaptation in any medium or format, provided the original author(s) and source are appropriately credited, a link to the license is provided, and any changes made are indicated.

To view a copy of this license, visit: https://creativecommons.org/licenses/by/4.0/

For any further queries or permissions beyond the scope of this license, please contact: journals@rubatosis.org

How to Cite

Advancements in nanostructure applications for the anticancer delivery of natural compounds. (2024). International Journal of Research in Pharmaceutical Sciences and Technology, 4(2), 30-39. https://rubatosis.org/journals/index.php/ijrpst/article/view/263

Similar Articles

1-10 of 48

You may also start an advanced similarity search for this article.