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Book
Medicinal and Aromatic Plants in Agricultural Research When Considering Criteria of Multifunctionality and Sustainability
Authors: --- --- ---
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

Medicinal and aromatic plants (MAPs), as open-field crops, play an important role in multifunctional and sustainable agriculture as a result of their low energy requirements for cultivation and their many avenues of use, from the production of nutraceuticals, phytonutrients, and phytotherapy to land valorization. This Special Issue of Agriculture, “Medicinal and Aromatic Plants in Agricultural Research when Considering Multifunctionality and Sustainability Criteria”, aims to illustrate the role of MAPs in agriculture in low-impact farming practices, and the benefits they can generate in terms of functional products. This Special Issue covers all research aspects related to MAPs, including a number of scientific macro-areas, such as agronomy, chemistry and pharmacy, ethnobotany and ethnopharmacology, food and nutrition, and ecology. Key topics in this Special Issue include, but are not limited to, the following: Sustainable agricultural practices of MAPs; Breeding and germplasm preservation of MAPs; The biodiversity of MAPs; The conservation of cultivated and wild MAPs; Ethnobotany and ethnopharmacology; Phytotherapy, phytochemistry, and phytopharmacology; Essential oils and secondary metabolites; Functional foods and MAPs; MAPs and degraded and marginal land recovery; The global marketing of MAPs; The legislation of MAPs.

Keywords

Research & information: general --- Chemistry --- laurel --- microbial load --- oven drying --- real time monitoring --- sage --- sensor --- spike lavender --- essential oil --- 1,8-cineole --- linalool --- camphor --- edaphic characteristics --- altitude --- latitude --- longitude --- aromatic species --- alternative substrates --- irrigation --- plant habitus --- sustainable cultivation --- Calotropis procera leaves --- chronic inflammatory model --- cytokines --- Freund’s complete adjuvant --- indomethacin --- medicinal and aromatic plants --- crop diversification --- sustainability --- leaf yield --- biofunctional products --- genotypic variability --- extra-virgin olive oil --- aromatic and medicinal plants --- gas-chromatography and mass spectrometry analyses --- antioxidant --- oleic acid --- caper plant --- island of Linosa --- morphological and productive characteristics --- growing --- St. John’s wort --- Hypericum perforatum --- secondary metabolites --- cropping technique --- hops --- Humulus lupulus L. --- Mediterranean environment --- trellising system --- medicinal plant --- industrial crop --- hop shoots --- powdery mildew --- downy mildew --- Japanese beetle --- maypop --- Ficus carica L. --- Taxus cuspidata Sieb. et Zucc. --- medicinal-agroforestry system --- soil enzyme activity --- photosynthesis --- polyphenols --- Berberis --- negative fruits --- organic agriculture --- rooting --- hardwood cuttings --- iron chelates --- n/a --- Freund's complete adjuvant --- St. John's wort


Book
Medicinal and Aromatic Plants in Agricultural Research When Considering Criteria of Multifunctionality and Sustainability
Authors: --- --- ---
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

Medicinal and aromatic plants (MAPs), as open-field crops, play an important role in multifunctional and sustainable agriculture as a result of their low energy requirements for cultivation and their many avenues of use, from the production of nutraceuticals, phytonutrients, and phytotherapy to land valorization. This Special Issue of Agriculture, “Medicinal and Aromatic Plants in Agricultural Research when Considering Multifunctionality and Sustainability Criteria”, aims to illustrate the role of MAPs in agriculture in low-impact farming practices, and the benefits they can generate in terms of functional products. This Special Issue covers all research aspects related to MAPs, including a number of scientific macro-areas, such as agronomy, chemistry and pharmacy, ethnobotany and ethnopharmacology, food and nutrition, and ecology. Key topics in this Special Issue include, but are not limited to, the following: Sustainable agricultural practices of MAPs; Breeding and germplasm preservation of MAPs; The biodiversity of MAPs; The conservation of cultivated and wild MAPs; Ethnobotany and ethnopharmacology; Phytotherapy, phytochemistry, and phytopharmacology; Essential oils and secondary metabolites; Functional foods and MAPs; MAPs and degraded and marginal land recovery; The global marketing of MAPs; The legislation of MAPs.


Book
Medicinal and Aromatic Plants in Agricultural Research When Considering Criteria of Multifunctionality and Sustainability
Authors: --- --- ---
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

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Bookmark

Abstract

Medicinal and aromatic plants (MAPs), as open-field crops, play an important role in multifunctional and sustainable agriculture as a result of their low energy requirements for cultivation and their many avenues of use, from the production of nutraceuticals, phytonutrients, and phytotherapy to land valorization. This Special Issue of Agriculture, “Medicinal and Aromatic Plants in Agricultural Research when Considering Multifunctionality and Sustainability Criteria”, aims to illustrate the role of MAPs in agriculture in low-impact farming practices, and the benefits they can generate in terms of functional products. This Special Issue covers all research aspects related to MAPs, including a number of scientific macro-areas, such as agronomy, chemistry and pharmacy, ethnobotany and ethnopharmacology, food and nutrition, and ecology. Key topics in this Special Issue include, but are not limited to, the following: Sustainable agricultural practices of MAPs; Breeding and germplasm preservation of MAPs; The biodiversity of MAPs; The conservation of cultivated and wild MAPs; Ethnobotany and ethnopharmacology; Phytotherapy, phytochemistry, and phytopharmacology; Essential oils and secondary metabolites; Functional foods and MAPs; MAPs and degraded and marginal land recovery; The global marketing of MAPs; The legislation of MAPs.


Book
Antitumoral Properties of Natural Products
Author:
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

Cancer is one of the major causes of death worldwide. It is a multifactorial heterogeneous disease characterized by the transformation of normal cells into malignant cells, which acquire an uncontrolled growth, immortality, invasiveness, and ability to form distant metastasis. Natural bioactive molecules may interfere with these processes and inhibit the carcinogenesis process. In this book, new molecules and extracts, mainly derived from plants, have been described as being able to alter tumor cell behavior and target several abnormal molecular pathways in cancer cells. Among different cancer cells, the more studied include those derived from glioblastoma, osteosarcoma, lung, breast and gastric cancer. These natural products could be an attractive source for the development of new preventative and therapeutic agents against cancer. They may be more selective and have weaker adverse effects compared to conventional chemotherapy drugs that are actually used for cancer treatment. Clinical trials are necessary to demonstrate whether the in vitro and in vivo animal data are reproduced in humans before the application of natural products in cancer prevention and treatment.

Keywords

cytotoxic activity --- NCI-60 cancer cell line --- pristimerin --- Salacia crassifolia --- Celastraceae --- Brazilian Cerrado biome --- Salacia elliptica --- Cheiloclinium cognatum --- Plenckia populnea --- Aspergillus fumigatus --- Cordyceps sinensis --- isochromanes --- chiral resolution --- ECD calculation --- cytotoxicity --- coronarin D --- JNK --- osteosarcoma --- Zeylenone --- gastric cancer --- invasion --- migration --- apoptosis --- anti-cancer agents --- anthraquinones --- glycosyltransferase --- Dendrobium officinale --- structure elucidation --- anti-tumor activity --- plantation mode --- AR --- Ganoderma tsugae --- lipogenesis --- prostate cancer --- SREBP-1 --- ursolic acid --- betulinic acid --- triterpenoids --- necrotic --- quercetin --- quercetagetin --- patuletin --- lichen --- secondary metabolites --- tumidulin --- stemness potential --- colorectal cancer cells --- oncogene --- transcriptional regulation --- neferine --- FAK/S6K1 --- autophagy --- human neuroblastoma cells --- natural yellow Monascus pigments --- water-soluble --- antioxidation --- MCF-7 cells --- phloretin --- cell proliferation --- inflammation --- glucose uptake --- Catalpa speciosa --- Taxus cuspidata --- Magnolia acuminata --- phenols --- antioxidants --- anticancer --- Colocasia esculenta --- food bioactive --- tarin --- stable nanocapsules --- entrapment efficiency --- no-toxicity --- preclinical tests --- antitumoral activity --- chemotherapeutic adjuvant --- grape leaves --- ASE --- TP --- Antioxidant activities --- Antiproliferative --- pro-apoptotic effects --- Gene expression --- Nutraceuticals --- Cucurbitacin B --- gefitinib-resistant NSCLC --- EGFR --- lysosomal degradation --- CIP2A --- zerumbone --- cancer --- NF-κB --- IL-6/JAK2/STAT3 --- Akt --- FOXO1 --- multiple myeloma --- quality control --- naringenin --- flavonoids --- traditional preparation --- cancer stem cells --- phytochemicals --- plant-derived foods --- fruit --- vegetable --- cell signaling --- Artemisia absinthium --- endoplasmic reticulum stress --- mitochondrial-dependent pathway --- melanoma --- bee venom --- melittin --- temozolomide --- AKT --- MAPK --- antrodin C --- mTOR --- metabolic stability --- capsazepine --- inflammatory diseases --- ROS --- TRPV1 --- PI3K/AKT/mTOR --- CLE-10 --- LC3 --- MDA-MB-231 --- lactoferrin hydrolysate --- copper --- manganese --- gastric cancer cells --- anti-cancer activity --- molecular mechanism --- natural product alkaloids --- cephalotaxine --- protein synthesis inhibition --- antiproliferation agents --- folk medicine --- DLD-1 cells --- doxorubicin --- chemotherapy --- drug resistance --- CrataBL --- glioblastoma --- mesenchymal stem cells --- microenvironment --- plant lectin --- protease inhibitor --- cryptolepine --- neocryptolepine --- isocryptolepine --- antiproliferative activity --- structure activity relationships --- Licochalcone A --- ATM-Chk2 --- 13-ethylberberine --- mitochondrial ROS --- RT-R breast cancer cells --- diallyl disulfide --- PI3K/Akt/mTOR pathway --- Pulsatilla saponin D --- SB365 --- glioblastoma multiforme --- autophagic flux inhibition --- lysosomal membrane permeabilization --- mitochondrial membrane potential --- CLEFMA --- p38 --- proanthocyanins --- TNF-α --- lung adenocarcinoma --- natural compounds --- cervical cancer --- cell cycle arrest --- dicentrine --- metastasis --- glioma --- semi-synthetic derivative --- ingenol --- Euphorbia tirucalli --- protein kinase C --- seaweed --- porphyran --- carrageenan --- anti-cancer --- natural products --- n/a


Book
Antitumoral Properties of Natural Products : Volume 2
Author:
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

Cancer is one of the major causes of death worldwide. It is a multifactorial heterogeneous disease characterized by the transformation of normal cells into malignant cells, which acquire an uncontrolled growth, immortality, invasiveness, and ability to form distant metastasis. Natural bioactive molecules may interfere with these processes and inhibit the carcinogenesis process. In this book, new molecules and extracts, mainly derived from plants, have been described as being able to alter tumor cell behavior and target several abnormal molecular pathways in cancer cells. Among different cancer cells, the more studied include those derived from glioblastoma, osteosarcoma, lung, breast and gastric cancer. These natural products could be an attractive source for the development of new preventative and therapeutic agents against cancer. They may be more selective and have weaker adverse effects compared to conventional chemotherapy drugs that are actually used for cancer treatment. Clinical trials are necessary to demonstrate whether the in vitro and in vivo animal data are reproduced in humans before the application of natural products in cancer prevention and treatment.

Keywords

cytotoxic activity --- NCI-60 cancer cell line --- pristimerin --- Salacia crassifolia --- Celastraceae --- Brazilian Cerrado biome --- Salacia elliptica --- Cheiloclinium cognatum --- Plenckia populnea --- Aspergillus fumigatus --- Cordyceps sinensis --- isochromanes --- chiral resolution --- ECD calculation --- cytotoxicity --- coronarin D --- JNK --- osteosarcoma --- Zeylenone --- gastric cancer --- invasion --- migration --- apoptosis --- anti-cancer agents --- anthraquinones --- glycosyltransferase --- Dendrobium officinale --- structure elucidation --- anti-tumor activity --- plantation mode --- AR --- Ganoderma tsugae --- lipogenesis --- prostate cancer --- SREBP-1 --- ursolic acid --- betulinic acid --- triterpenoids --- necrotic --- quercetin --- quercetagetin --- patuletin --- lichen --- secondary metabolites --- tumidulin --- stemness potential --- colorectal cancer cells --- oncogene --- transcriptional regulation --- neferine --- FAK/S6K1 --- autophagy --- human neuroblastoma cells --- natural yellow Monascus pigments --- water-soluble --- antioxidation --- MCF-7 cells --- phloretin --- cell proliferation --- inflammation --- glucose uptake --- Catalpa speciosa --- Taxus cuspidata --- Magnolia acuminata --- phenols --- antioxidants --- anticancer --- Colocasia esculenta --- food bioactive --- tarin --- stable nanocapsules --- entrapment efficiency --- no-toxicity --- preclinical tests --- antitumoral activity --- chemotherapeutic adjuvant --- grape leaves --- ASE --- TP --- Antioxidant activities --- Antiproliferative --- pro-apoptotic effects --- Gene expression --- Nutraceuticals --- Cucurbitacin B --- gefitinib-resistant NSCLC --- EGFR --- lysosomal degradation --- CIP2A --- zerumbone --- cancer --- NF-κB --- IL-6/JAK2/STAT3 --- Akt --- FOXO1 --- multiple myeloma --- quality control --- naringenin --- flavonoids --- traditional preparation --- cancer stem cells --- phytochemicals --- plant-derived foods --- fruit --- vegetable --- cell signaling --- Artemisia absinthium --- endoplasmic reticulum stress --- mitochondrial-dependent pathway --- melanoma --- bee venom --- melittin --- temozolomide --- AKT --- MAPK --- antrodin C --- mTOR --- metabolic stability --- capsazepine --- inflammatory diseases --- ROS --- TRPV1 --- PI3K/AKT/mTOR --- CLE-10 --- LC3 --- MDA-MB-231 --- lactoferrin hydrolysate --- copper --- manganese --- gastric cancer cells --- anti-cancer activity --- molecular mechanism --- natural product alkaloids --- cephalotaxine --- protein synthesis inhibition --- antiproliferation agents --- folk medicine --- DLD-1 cells --- doxorubicin --- chemotherapy --- drug resistance --- CrataBL --- glioblastoma --- mesenchymal stem cells --- microenvironment --- plant lectin --- protease inhibitor --- cryptolepine --- neocryptolepine --- isocryptolepine --- antiproliferative activity --- structure activity relationships --- Licochalcone A --- ATM-Chk2 --- 13-ethylberberine --- mitochondrial ROS --- RT-R breast cancer cells --- diallyl disulfide --- PI3K/Akt/mTOR pathway --- Pulsatilla saponin D --- SB365 --- glioblastoma multiforme --- autophagic flux inhibition --- lysosomal membrane permeabilization --- mitochondrial membrane potential --- CLEFMA --- p38 --- proanthocyanins --- TNF-α --- lung adenocarcinoma --- natural compounds --- cervical cancer --- cell cycle arrest --- dicentrine --- metastasis --- glioma --- semi-synthetic derivative --- ingenol --- Euphorbia tirucalli --- protein kinase C --- seaweed --- porphyran --- carrageenan --- anti-cancer --- natural products --- n/a


Book
Antitumoral Properties of Natural Products : Volume 2
Author:
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

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Bookmark

Abstract

Cancer is one of the major causes of death worldwide. It is a multifactorial heterogeneous disease characterized by the transformation of normal cells into malignant cells, which acquire an uncontrolled growth, immortality, invasiveness, and ability to form distant metastasis. Natural bioactive molecules may interfere with these processes and inhibit the carcinogenesis process. In this book, new molecules and extracts, mainly derived from plants, have been described as being able to alter tumor cell behavior and target several abnormal molecular pathways in cancer cells. Among different cancer cells, the more studied include those derived from glioblastoma, osteosarcoma, lung, breast and gastric cancer. These natural products could be an attractive source for the development of new preventative and therapeutic agents against cancer. They may be more selective and have weaker adverse effects compared to conventional chemotherapy drugs that are actually used for cancer treatment. Clinical trials are necessary to demonstrate whether the in vitro and in vivo animal data are reproduced in humans before the application of natural products in cancer prevention and treatment.

Keywords

Research & information: general --- Biology, life sciences --- cytotoxic activity --- NCI-60 cancer cell line --- pristimerin --- Salacia crassifolia --- Celastraceae --- Brazilian Cerrado biome --- Salacia elliptica --- Cheiloclinium cognatum --- Plenckia populnea --- Aspergillus fumigatus --- Cordyceps sinensis --- isochromanes --- chiral resolution --- ECD calculation --- cytotoxicity --- coronarin D --- JNK --- osteosarcoma --- Zeylenone --- gastric cancer --- invasion --- migration --- apoptosis --- anti-cancer agents --- anthraquinones --- glycosyltransferase --- Dendrobium officinale --- structure elucidation --- anti-tumor activity --- plantation mode --- AR --- Ganoderma tsugae --- lipogenesis --- prostate cancer --- SREBP-1 --- ursolic acid --- betulinic acid --- triterpenoids --- necrotic --- quercetin --- quercetagetin --- patuletin --- lichen --- secondary metabolites --- tumidulin --- stemness potential --- colorectal cancer cells --- oncogene --- transcriptional regulation --- neferine --- FAK/S6K1 --- autophagy --- human neuroblastoma cells --- natural yellow Monascus pigments --- water-soluble --- antioxidation --- MCF-7 cells --- phloretin --- cell proliferation --- inflammation --- glucose uptake --- Catalpa speciosa --- Taxus cuspidata --- Magnolia acuminata --- phenols --- antioxidants --- anticancer --- Colocasia esculenta --- food bioactive --- tarin --- stable nanocapsules --- entrapment efficiency --- no-toxicity --- preclinical tests --- antitumoral activity --- chemotherapeutic adjuvant --- grape leaves --- ASE --- TP --- Antioxidant activities --- Antiproliferative --- pro-apoptotic effects --- Gene expression --- Nutraceuticals --- Cucurbitacin B --- gefitinib-resistant NSCLC --- EGFR --- lysosomal degradation --- CIP2A --- zerumbone --- cancer --- NF-κB --- IL-6/JAK2/STAT3 --- Akt --- FOXO1 --- multiple myeloma --- quality control --- naringenin --- flavonoids --- traditional preparation --- cancer stem cells --- phytochemicals --- plant-derived foods --- fruit --- vegetable --- cell signaling --- Artemisia absinthium --- endoplasmic reticulum stress --- mitochondrial-dependent pathway --- melanoma --- bee venom --- melittin --- temozolomide --- AKT --- MAPK --- antrodin C --- mTOR --- metabolic stability --- capsazepine --- inflammatory diseases --- ROS --- TRPV1 --- PI3K/AKT/mTOR --- CLE-10 --- LC3 --- MDA-MB-231 --- lactoferrin hydrolysate --- copper --- manganese --- gastric cancer cells --- anti-cancer activity --- molecular mechanism --- natural product alkaloids --- cephalotaxine --- protein synthesis inhibition --- antiproliferation agents --- folk medicine --- DLD-1 cells --- doxorubicin --- chemotherapy --- drug resistance --- CrataBL --- glioblastoma --- mesenchymal stem cells --- microenvironment --- plant lectin --- protease inhibitor --- cryptolepine --- neocryptolepine --- isocryptolepine --- antiproliferative activity --- structure activity relationships --- Licochalcone A --- ATM-Chk2 --- 13-ethylberberine --- mitochondrial ROS --- RT-R breast cancer cells --- diallyl disulfide --- PI3K/Akt/mTOR pathway --- Pulsatilla saponin D --- SB365 --- glioblastoma multiforme --- autophagic flux inhibition --- lysosomal membrane permeabilization --- mitochondrial membrane potential --- CLEFMA --- p38 --- proanthocyanins --- TNF-α --- lung adenocarcinoma --- natural compounds --- cervical cancer --- cell cycle arrest --- dicentrine --- metastasis --- glioma --- semi-synthetic derivative --- ingenol --- Euphorbia tirucalli --- protein kinase C --- seaweed --- porphyran --- carrageenan --- anti-cancer --- natural products --- n/a


Book
Antitumoral Properties of Natural Products : Volume 2
Author:
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

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Bookmark

Abstract

Cancer is one of the major causes of death worldwide. It is a multifactorial heterogeneous disease characterized by the transformation of normal cells into malignant cells, which acquire an uncontrolled growth, immortality, invasiveness, and ability to form distant metastasis. Natural bioactive molecules may interfere with these processes and inhibit the carcinogenesis process. In this book, new molecules and extracts, mainly derived from plants, have been described as being able to alter tumor cell behavior and target several abnormal molecular pathways in cancer cells. Among different cancer cells, the more studied include those derived from glioblastoma, osteosarcoma, lung, breast and gastric cancer. These natural products could be an attractive source for the development of new preventative and therapeutic agents against cancer. They may be more selective and have weaker adverse effects compared to conventional chemotherapy drugs that are actually used for cancer treatment. Clinical trials are necessary to demonstrate whether the in vitro and in vivo animal data are reproduced in humans before the application of natural products in cancer prevention and treatment.

Keywords

Research & information: general --- Biology, life sciences --- cytotoxic activity --- NCI-60 cancer cell line --- pristimerin --- Salacia crassifolia --- Celastraceae --- Brazilian Cerrado biome --- Salacia elliptica --- Cheiloclinium cognatum --- Plenckia populnea --- Aspergillus fumigatus --- Cordyceps sinensis --- isochromanes --- chiral resolution --- ECD calculation --- cytotoxicity --- coronarin D --- JNK --- osteosarcoma --- Zeylenone --- gastric cancer --- invasion --- migration --- apoptosis --- anti-cancer agents --- anthraquinones --- glycosyltransferase --- Dendrobium officinale --- structure elucidation --- anti-tumor activity --- plantation mode --- AR --- Ganoderma tsugae --- lipogenesis --- prostate cancer --- SREBP-1 --- ursolic acid --- betulinic acid --- triterpenoids --- necrotic --- quercetin --- quercetagetin --- patuletin --- lichen --- secondary metabolites --- tumidulin --- stemness potential --- colorectal cancer cells --- oncogene --- transcriptional regulation --- neferine --- FAK/S6K1 --- autophagy --- human neuroblastoma cells --- natural yellow Monascus pigments --- water-soluble --- antioxidation --- MCF-7 cells --- phloretin --- cell proliferation --- inflammation --- glucose uptake --- Catalpa speciosa --- Taxus cuspidata --- Magnolia acuminata --- phenols --- antioxidants --- anticancer --- Colocasia esculenta --- food bioactive --- tarin --- stable nanocapsules --- entrapment efficiency --- no-toxicity --- preclinical tests --- antitumoral activity --- chemotherapeutic adjuvant --- grape leaves --- ASE --- TP --- Antioxidant activities --- Antiproliferative --- pro-apoptotic effects --- Gene expression --- Nutraceuticals --- Cucurbitacin B --- gefitinib-resistant NSCLC --- EGFR --- lysosomal degradation --- CIP2A --- zerumbone --- cancer --- NF-κB --- IL-6/JAK2/STAT3 --- Akt --- FOXO1 --- multiple myeloma --- quality control --- naringenin --- flavonoids --- traditional preparation --- cancer stem cells --- phytochemicals --- plant-derived foods --- fruit --- vegetable --- cell signaling --- Artemisia absinthium --- endoplasmic reticulum stress --- mitochondrial-dependent pathway --- melanoma --- bee venom --- melittin --- temozolomide --- AKT --- MAPK --- antrodin C --- mTOR --- metabolic stability --- capsazepine --- inflammatory diseases --- ROS --- TRPV1 --- PI3K/AKT/mTOR --- CLE-10 --- LC3 --- MDA-MB-231 --- lactoferrin hydrolysate --- copper --- manganese --- gastric cancer cells --- anti-cancer activity --- molecular mechanism --- natural product alkaloids --- cephalotaxine --- protein synthesis inhibition --- antiproliferation agents --- folk medicine --- DLD-1 cells --- doxorubicin --- chemotherapy --- drug resistance --- CrataBL --- glioblastoma --- mesenchymal stem cells --- microenvironment --- plant lectin --- protease inhibitor --- cryptolepine --- neocryptolepine --- isocryptolepine --- antiproliferative activity --- structure activity relationships --- Licochalcone A --- ATM-Chk2 --- 13-ethylberberine --- mitochondrial ROS --- RT-R breast cancer cells --- diallyl disulfide --- PI3K/Akt/mTOR pathway --- Pulsatilla saponin D --- SB365 --- glioblastoma multiforme --- autophagic flux inhibition --- lysosomal membrane permeabilization --- mitochondrial membrane potential --- CLEFMA --- p38 --- proanthocyanins --- TNF-α --- lung adenocarcinoma --- natural compounds --- cervical cancer --- cell cycle arrest --- dicentrine --- metastasis --- glioma --- semi-synthetic derivative --- ingenol --- Euphorbia tirucalli --- protein kinase C --- seaweed --- porphyran --- carrageenan --- anti-cancer --- natural products


Book
Antitumoral Properties of Natural Products
Author:
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

Cancer is one of the major causes of death worldwide. It is a multifactorial heterogeneous disease characterized by the transformation of normal cells into malignant cells, which acquire an uncontrolled growth, immortality, invasiveness, and ability to form distant metastasis. Natural bioactive molecules may interfere with these processes and inhibit the carcinogenesis process. In this book, new molecules and extracts, mainly derived from plants, have been described as being able to alter tumor cell behavior and target several abnormal molecular pathways in cancer cells. Among different cancer cells, the more studied include those derived from glioblastoma, osteosarcoma, lung, breast and gastric cancer. These natural products could be an attractive source for the development of new preventative and therapeutic agents against cancer. They may be more selective and have weaker adverse effects compared to conventional chemotherapy drugs that are actually used for cancer treatment. Clinical trials are necessary to demonstrate whether the in vitro and in vivo animal data are reproduced in humans before the application of natural products in cancer prevention and treatment.

Keywords

Research & information: general --- Biology, life sciences --- cytotoxic activity --- NCI-60 cancer cell line --- pristimerin --- Salacia crassifolia --- Celastraceae --- Brazilian Cerrado biome --- Salacia elliptica --- Cheiloclinium cognatum --- Plenckia populnea --- Aspergillus fumigatus --- Cordyceps sinensis --- isochromanes --- chiral resolution --- ECD calculation --- cytotoxicity --- coronarin D --- JNK --- osteosarcoma --- Zeylenone --- gastric cancer --- invasion --- migration --- apoptosis --- anti-cancer agents --- anthraquinones --- glycosyltransferase --- Dendrobium officinale --- structure elucidation --- anti-tumor activity --- plantation mode --- AR --- Ganoderma tsugae --- lipogenesis --- prostate cancer --- SREBP-1 --- ursolic acid --- betulinic acid --- triterpenoids --- necrotic --- quercetin --- quercetagetin --- patuletin --- lichen --- secondary metabolites --- tumidulin --- stemness potential --- colorectal cancer cells --- oncogene --- transcriptional regulation --- neferine --- FAK/S6K1 --- autophagy --- human neuroblastoma cells --- natural yellow Monascus pigments --- water-soluble --- antioxidation --- MCF-7 cells --- phloretin --- cell proliferation --- inflammation --- glucose uptake --- Catalpa speciosa --- Taxus cuspidata --- Magnolia acuminata --- phenols --- antioxidants --- anticancer --- Colocasia esculenta --- food bioactive --- tarin --- stable nanocapsules --- entrapment efficiency --- no-toxicity --- preclinical tests --- antitumoral activity --- chemotherapeutic adjuvant --- grape leaves --- ASE --- TP --- Antioxidant activities --- Antiproliferative --- pro-apoptotic effects --- Gene expression --- Nutraceuticals --- Cucurbitacin B --- gefitinib-resistant NSCLC --- EGFR --- lysosomal degradation --- CIP2A --- zerumbone --- cancer --- NF-κB --- IL-6/JAK2/STAT3 --- Akt --- FOXO1 --- multiple myeloma --- quality control --- naringenin --- flavonoids --- traditional preparation --- cancer stem cells --- phytochemicals --- plant-derived foods --- fruit --- vegetable --- cell signaling --- Artemisia absinthium --- endoplasmic reticulum stress --- mitochondrial-dependent pathway --- melanoma --- bee venom --- melittin --- temozolomide --- AKT --- MAPK --- antrodin C --- mTOR --- metabolic stability --- capsazepine --- inflammatory diseases --- ROS --- TRPV1 --- PI3K/AKT/mTOR --- CLE-10 --- LC3 --- MDA-MB-231 --- lactoferrin hydrolysate --- copper --- manganese --- gastric cancer cells --- anti-cancer activity --- molecular mechanism --- natural product alkaloids --- cephalotaxine --- protein synthesis inhibition --- antiproliferation agents --- folk medicine --- DLD-1 cells --- doxorubicin --- chemotherapy --- drug resistance --- CrataBL --- glioblastoma --- mesenchymal stem cells --- microenvironment --- plant lectin --- protease inhibitor --- cryptolepine --- neocryptolepine --- isocryptolepine --- antiproliferative activity --- structure activity relationships --- Licochalcone A --- ATM-Chk2 --- 13-ethylberberine --- mitochondrial ROS --- RT-R breast cancer cells --- diallyl disulfide --- PI3K/Akt/mTOR pathway --- Pulsatilla saponin D --- SB365 --- glioblastoma multiforme --- autophagic flux inhibition --- lysosomal membrane permeabilization --- mitochondrial membrane potential --- CLEFMA --- p38 --- proanthocyanins --- TNF-α --- lung adenocarcinoma --- natural compounds --- cervical cancer --- cell cycle arrest --- dicentrine --- metastasis --- glioma --- semi-synthetic derivative --- ingenol --- Euphorbia tirucalli --- protein kinase C --- seaweed --- porphyran --- carrageenan --- anti-cancer --- natural products

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