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Last Updated: March 29, 2024

Claims for Patent: 10,286,004


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Summary for Patent: 10,286,004
Title:Targeting-enhanced anticancer nanoparticles and preparation methods of same
Abstract: Targeting-enhanced anticancer nanoparticles and preparation methods for the nanoparticles are provided. In particular, this invention provides targeting-enhanced anticancer nanoparticles comprising non-covalently bound anticancer drugs, serum albumins as the nanoparticle base material, and porphyrin compounds as tumor-targeting moieties. The targeting-enhanced anticancer nanoparticles described in the present invention are characterized by non-covalently bound constituents: anticancer drugs, serum albumin as the nanoparticle base material, and porphyrin compounds as tumor-targeting moieties, thus preventing common toxic side effects, enhancing the structural stability of nanoparticles, and enhancing tumor targeting by treatment with electromagnetic waves due to the activity of porphyrin, without structural and functional changes. Taken together, the present invention provides a chemotherapeutic method that maximizes drug delivery/tumor targeting and is expected to be a successful therapy for both early-stage and late-stage cancer.
Inventor(s): Kim; Hyeon Jin (Wanju-gun, KR), Hong; Seong Tshool (Jeonju-si, KR), Chung; Hea Jong (Jeonju-si, KR), Joo; Min Kyu (Jeonju-si, KR), Cho; Hea Guk (Gwangju, KR), Hong; Jinny (Jeonju-si, KR)
Assignee: JINIS CO., LTD. (Wanju-gun, KR)
Application Number:15/481,950
Patent Claims:1. A preparation method for non-covalently bound targeting-enhanced nanoparticles, comprising (a) a preparation step of a mixture solution in which the anticancer drug solution is added to serum albumin solution; (b) a nanoparticle aggregate preparation step in which anticancer drugs and serum albumins aggregate upon the addition of organic solvents drop wise to the said mixture; (c) a manufacturing step in which drug-albumin nanoparticles are prepared with drugs in the core and serum albumin as the outer shell by inducing the spatial rearrangement of components through a temperature shift in these nanoparticle solutions with non-covalent aggregates of drugs and serum albumins; (d) a manufacturing step to prepare targeting-enhanced anticancer nanoparticles in which non-covalently bound serum albumin-porphyrin complex encapsulates the anticancer drugs by adding the porphyrin compounds to the nanoparticle in which the anticancer drugs in the core and serum albumin in the outer shell are non-covalently bound and then mixing; (e) a manufacturing step in which the targeting-enhanced nanoparticles were filtered and centrifuged and then the sedimented nanoparticles were recovered; and (f) a preparation step in which the targeting-enhanced nanoparticle powder was prepared by freeze-drying.

2. A method for preparing a targeting-enhanced anticancer nanoparticle according to claim 1, wherein said porphyrin compounds is at least one selected form the group consisting of protoporphyrin IX, heme, hemin, zinc protoporphyrin, magnesium protoporphyrin, hematoporphyrin, benzoporphyrin, metalloporphyrin, texaphyrins, chlorins, bacteriochlorins, pthalocyanine, napthalocyanine, and derivatives thereof.

3. A method for preparing targeting-enhanced anticancer nanoparticles according to claim 1, wherein said preparation method further comprises a targeting-enhanced nanoparticle wherein the ratio of albumins, anticancer drugs, and porphyrin compounds is 100:(10-300):(0.01-10) by weight.

4. A method for preparing targeting-enhanced anticancer nanoparticles according to claim 1, wherein said inducing the spatial rearrangement of components through a temperature shift is carried out by heating for hydrophobic drugs or by cooling for hydrophilic drugs.

5. A method for preparing targeting-enhanced anticancer nanoparticles according to claim 4, wherein said temperature shift is carried out by heating at 40.degree. C.-60.degree. C. or by cooling at -10.degree. C.--70.degree. C.

6. A method for preparing targeting-enhanced anticancer nanoparticles according to claim 1, wherein said preparation includes an additional step of ultrasound treatment before filtration to separate randomly aggregated nanoparticles and to control the nanoparticle size.

7. A method for preparing targeting-enhanced anticancer nanoparticles according to claim 1, wherein said anticancer drugs is at least one selected from the group consisting of doxorubicin, daunorubicin, valrubicin, epirubicin, idarubicin, paclitaxel, docetaxel, cisplatin, carboplatin, oxaliplatin, camptothecin, vincristine, vinblastine, 5-FU, mitomycin, cyclophosphamide, methotrexate, mitoxantron, topotecan, capecitabine, doxifluridine, irinotecan, tegafur, chlorambucil, belotecan, anasterozole, tamoxifen, gleevec, floxuridine, leuprolide, flutamide, zoledronate, streptozocin, vinorelbine, hydroxyurea, retinoic acid, meclorethamine, busulfan, prednisone, testosterone, aspirin, salicylates, ibuprofen, naproxen, fenoprofen, indomethacin, phenyltazone, mechlorethamine, dexamethasone, prednisolone, celecoxib, valdecoxib, nimesulide, cortisone, corticosteroid, gemcitabine, cedrol, and any combinations of the above or derivatives thereof.

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