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This Special Issue aims to provide an updated overview of the flourishing ongoing research activity in the field of the chemistry of natural and nature-inspired compounds. Ten of the submitted articles were accepted for publication after peer-review. Interestingly, the published papers cover a wide range of chemical reactions, different scaffolds, and several medicinal chemistry applications. Moreover, this Special Issue gathered contributions from all over the world, testifying the international scientific community’s interest in this topic. I would like to sincerely thank the MDPI staff, particularly Jade Lu and the editorial team of Molbank. I am particularly grateful to the authors that decided to share the results of their research by contributing their manuscript to this Special Issue, and, of course, to the reviewers for their valuable help.

Research & information: general --- quercetin --- flavonoids --- semi-synthetic --- PDE --- sildenafil --- molecular modeling --- Garcinia porrecta --- Clusiaceae --- xanthone --- Lansium domesticum --- Meliaceae --- MCF-7 --- triterpene onoceranoid --- hydrazone --- (+)-camphor --- valproic acid --- technology --- terpenoid --- anticonvulsant activity --- 1,2,3-triazole --- anticancer --- aminoquinoline --- hybrid compound --- kokosanolide --- tetranortriterpenoid --- C. dichotoma --- antidiabetic --- α-glucosidase --- α-amylase --- docking --- ADMET --- curcumin analog --- organic synthesis --- photophysical properties --- steady-state fluorescence --- DFT calculation --- 7-hydroxy-2H-chromen-2-one --- O-acylation reaction --- coumarin --- lupeol derivative --- benzylidene derivative --- α-glucosidase inhibition --- Oxone® --- n/a

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This Special Issue aims to provide an updated overview of the flourishing ongoing research activity in the field of the chemistry of natural and nature-inspired compounds. Ten of the submitted articles were accepted for publication after peer-review. Interestingly, the published papers cover a wide range of chemical reactions, different scaffolds, and several medicinal chemistry applications. Moreover, this Special Issue gathered contributions from all over the world, testifying the international scientific community’s interest in this topic. I would like to sincerely thank the MDPI staff, particularly Jade Lu and the editorial team of Molbank. I am particularly grateful to the authors that decided to share the results of their research by contributing their manuscript to this Special Issue, and, of course, to the reviewers for their valuable help.

quercetin --- flavonoids --- semi-synthetic --- PDE --- sildenafil --- molecular modeling --- Garcinia porrecta --- Clusiaceae --- xanthone --- Lansium domesticum --- Meliaceae --- MCF-7 --- triterpene onoceranoid --- hydrazone --- (+)-camphor --- valproic acid --- technology --- terpenoid --- anticonvulsant activity --- 1,2,3-triazole --- anticancer --- aminoquinoline --- hybrid compound --- kokosanolide --- tetranortriterpenoid --- C. dichotoma --- antidiabetic --- α-glucosidase --- α-amylase --- docking --- ADMET --- curcumin analog --- organic synthesis --- photophysical properties --- steady-state fluorescence --- DFT calculation --- 7-hydroxy-2H-chromen-2-one --- O-acylation reaction --- coumarin --- lupeol derivative --- benzylidene derivative --- α-glucosidase inhibition --- Oxone® --- n/a

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This book is a printed edition of the Special Issue entitled “Anticancer Agents: Design, Synthesis and Evaluation” that was published in Molecules. Two review articles and thirty research papers are included in the Special Issue. Three second-generation androgen receptor antagonists that have been approved by the U.S. FDA for the treatment of prostate cancer have been reviewed. Identification of mimics of protein partners as protein-protein interaction inhibitors via virtual screening has been summarized and discussed. Anticancer agents targeting various protein targets, including IGF-1R, Src, protein kinase, aromatase, HDAC, PARP, Toll-Like receptor, c-Met, PI3Kdelta, topoisomerase II, p53, and indoleamine 2,3-dioxygenase, have been explored. The analogs of three well-known tubulin-interacting natural products, paclitaxel, zampanolide, and colchicine, have been designed, synthesized, and evaluated. Several anticancer agents representing diverse chemical scaffolds were assessed in different kinds of cancer cell models. The capability of some anticancer agents to overcome the resistance to currently available drugs was also studied. In addition to looking into the in vitro ability of the anticancer agents to inhibit cancer cell proliferation, apoptosis, and cell cycle, in vivo antitumor efficacy in animal models and DFT were also investigated in some papers.

Medicine --- benzofurans --- chemical synthesis --- cytotoxic properties --- HeLa --- MOLT-4 --- K562 --- anticancer --- anti-neuroinflammation --- coumarin --- dihydroartemisinin --- flavonoids --- allene --- E-stereoselective --- regioselective --- anti-cancer activity --- cyanopyridone --- substituted pyridine --- pyridotriazine --- pyrazolopyridine --- thioxotriazopyridine --- anticancer activity --- HepG2 --- antitumor activity --- computational docking --- MDM2-p53 interaction --- xanthones --- yeast-based assays --- estrone derivatives --- hydrazine --- N-substituted pyrazoline --- anti-ovarian cancer --- topoisomerase II inhibitor --- kinase inhibitor --- antiproliferative agent --- urea --- synthesis --- antiproliferative activity --- apoptosis --- indoleamine 2,3-dioxygenase --- inhibitor --- anti-tumor --- immune modulation --- tryptophan metabolism --- taxoids --- βIII-tubulin --- P-glycoprotein --- drug resistance --- thiopene --- thienopyrimidinone --- thiazolidinone --- breast cancer --- benzofuran–pyrazole --- nanoparticles --- cytotoxic activity --- PARP-1 inhibition --- 3,6-dibromocarbazole --- 5-bromoindole --- carbazole --- actin --- migration --- Thienopyrimidine --- Pyrazole --- PI3Kα inhibitor --- quinazolin-4(3H)-one --- quinazolin-4(3H)-thione --- Schiff base --- antioxidant activity --- DFT study --- ortho-quinones --- beta-lapachone --- tanshione IIA --- PI3Ks --- PI3Kδ inhibitors --- 2H-benzo[e][1,2,4]thiadiazine 1,1-dioxide --- anticancer agents --- protein–protein interactions --- virtual screening --- mimetics --- drug discovery --- bivalency --- polyvalency --- antitumor --- cell cycle --- ovarian cancer --- P-MAPA --- IL-12 --- TLR signaling --- inflammation --- chemoresistance --- 4-(pyridin-4-yloxy)benzamide --- 1,2,3-triazole --- c-Met --- natural product --- anticancer agent --- zampanolide --- Talazoparib --- PARP inhibitor --- prodrug --- o-nitro-benzyl --- photoactivatable protecting groups --- salinomycin --- overcoming drug resistance --- tumor specificity --- synergy --- 5-fluorouracil --- gemcitabine --- amides/esters --- colchicine analogs --- thiocolchicine --- colchiceine --- antimitotic agents --- hydrates --- dihydropyranoindole --- HDAC inhibitors --- neuroblastoma --- aromatase --- MCF-7 --- NIH3T3 --- benzimidazole --- triazolothiadiazine --- docking --- ADME --- organosilicon compounds --- SILA-409 (Alis-409) --- SILA-421 (Alis-421) --- multidrug resistance (MDR) reversal --- ABCB1 (P-glycoprotein) --- colon cancer --- colchicine amide --- colchicine sulfonamide --- tubulin inhibitors --- docking studies --- crystal structure --- PROTACs --- protein degradation --- IGF-1R --- Src --- protein kinase --- phenylpyrazolopyrimidine --- enzyme inhibition --- molecular simulation --- androgen receptor --- prostate cancer --- enzalutamide --- apalutamide --- darolutamide --- triple-negative breast cancer --- cytotoxicity --- chrysin analogues --- flavonoid --- anticancer compounds

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• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

This book is a printed edition of the Special Issue entitled “Anticancer Agents: Design, Synthesis and Evaluation” that was published in Molecules. Two review articles and thirty research papers are included in the Special Issue. Three second-generation androgen receptor antagonists that have been approved by the U.S. FDA for the treatment of prostate cancer have been reviewed. Identification of mimics of protein partners as protein-protein interaction inhibitors via virtual screening has been summarized and discussed. Anticancer agents targeting various protein targets, including IGF-1R, Src, protein kinase, aromatase, HDAC, PARP, Toll-Like receptor, c-Met, PI3Kdelta, topoisomerase II, p53, and indoleamine 2,3-dioxygenase, have been explored. The analogs of three well-known tubulin-interacting natural products, paclitaxel, zampanolide, and colchicine, have been designed, synthesized, and evaluated. Several anticancer agents representing diverse chemical scaffolds were assessed in different kinds of cancer cell models. The capability of some anticancer agents to overcome the resistance to currently available drugs was also studied. In addition to looking into the in vitro ability of the anticancer agents to inhibit cancer cell proliferation, apoptosis, and cell cycle, in vivo antitumor efficacy in animal models and DFT were also investigated in some papers.

Medicine --- benzofurans --- chemical synthesis --- cytotoxic properties --- HeLa --- MOLT-4 --- K562 --- anticancer --- anti-neuroinflammation --- coumarin --- dihydroartemisinin --- flavonoids --- allene --- E-stereoselective --- regioselective --- anti-cancer activity --- cyanopyridone --- substituted pyridine --- pyridotriazine --- pyrazolopyridine --- thioxotriazopyridine --- anticancer activity --- HepG2 --- antitumor activity --- computational docking --- MDM2-p53 interaction --- xanthones --- yeast-based assays --- estrone derivatives --- hydrazine --- N-substituted pyrazoline --- anti-ovarian cancer --- topoisomerase II inhibitor --- kinase inhibitor --- antiproliferative agent --- urea --- synthesis --- antiproliferative activity --- apoptosis --- indoleamine 2,3-dioxygenase --- inhibitor --- anti-tumor --- immune modulation --- tryptophan metabolism --- taxoids --- βIII-tubulin --- P-glycoprotein --- drug resistance --- thiopene --- thienopyrimidinone --- thiazolidinone --- breast cancer --- benzofuran–pyrazole --- nanoparticles --- cytotoxic activity --- PARP-1 inhibition --- 3,6-dibromocarbazole --- 5-bromoindole --- carbazole --- actin --- migration --- Thienopyrimidine --- Pyrazole --- PI3Kα inhibitor --- quinazolin-4(3H)-one --- quinazolin-4(3H)-thione --- Schiff base --- antioxidant activity --- DFT study --- ortho-quinones --- beta-lapachone --- tanshione IIA --- PI3Ks --- PI3Kδ inhibitors --- 2H-benzo[e][1,2,4]thiadiazine 1,1-dioxide --- anticancer agents --- protein–protein interactions --- virtual screening --- mimetics --- drug discovery --- bivalency --- polyvalency --- antitumor --- cell cycle --- ovarian cancer --- P-MAPA --- IL-12 --- TLR signaling --- inflammation --- chemoresistance --- 4-(pyridin-4-yloxy)benzamide --- 1,2,3-triazole --- c-Met --- natural product --- anticancer agent --- zampanolide --- Talazoparib --- PARP inhibitor --- prodrug --- o-nitro-benzyl --- photoactivatable protecting groups --- salinomycin --- overcoming drug resistance --- tumor specificity --- synergy --- 5-fluorouracil --- gemcitabine --- amides/esters --- colchicine analogs --- thiocolchicine --- colchiceine --- antimitotic agents --- hydrates --- dihydropyranoindole --- HDAC inhibitors --- neuroblastoma --- aromatase --- MCF-7 --- NIH3T3 --- benzimidazole --- triazolothiadiazine --- docking --- ADME --- organosilicon compounds --- SILA-409 (Alis-409) --- SILA-421 (Alis-421) --- multidrug resistance (MDR) reversal --- ABCB1 (P-glycoprotein) --- colon cancer --- colchicine amide --- colchicine sulfonamide --- tubulin inhibitors --- docking studies --- crystal structure --- PROTACs --- protein degradation --- IGF-1R --- Src --- protein kinase --- phenylpyrazolopyrimidine --- enzyme inhibition --- molecular simulation --- androgen receptor --- prostate cancer --- enzalutamide --- apalutamide --- darolutamide --- triple-negative breast cancer --- cytotoxicity --- chrysin analogues --- flavonoid --- anticancer compounds

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

This book is a printed edition of the Special Issue entitled “Anticancer Agents: Design, Synthesis and Evaluation” that was published in Molecules. Two review articles and thirty research papers are included in the Special Issue. Three second-generation androgen receptor antagonists that have been approved by the U.S. FDA for the treatment of prostate cancer have been reviewed. Identification of mimics of protein partners as protein-protein interaction inhibitors via virtual screening has been summarized and discussed. Anticancer agents targeting various protein targets, including IGF-1R, Src, protein kinase, aromatase, HDAC, PARP, Toll-Like receptor, c-Met, PI3Kdelta, topoisomerase II, p53, and indoleamine 2,3-dioxygenase, have been explored. The analogs of three well-known tubulin-interacting natural products, paclitaxel, zampanolide, and colchicine, have been designed, synthesized, and evaluated. Several anticancer agents representing diverse chemical scaffolds were assessed in different kinds of cancer cell models. The capability of some anticancer agents to overcome the resistance to currently available drugs was also studied. In addition to looking into the in vitro ability of the anticancer agents to inhibit cancer cell proliferation, apoptosis, and cell cycle, in vivo antitumor efficacy in animal models and DFT were also investigated in some papers.

benzofurans --- chemical synthesis --- cytotoxic properties --- HeLa --- MOLT-4 --- K562 --- anticancer --- anti-neuroinflammation --- coumarin --- dihydroartemisinin --- flavonoids --- allene --- E-stereoselective --- regioselective --- anti-cancer activity --- cyanopyridone --- substituted pyridine --- pyridotriazine --- pyrazolopyridine --- thioxotriazopyridine --- anticancer activity --- HepG2 --- antitumor activity --- computational docking --- MDM2-p53 interaction --- xanthones --- yeast-based assays --- estrone derivatives --- hydrazine --- N-substituted pyrazoline --- anti-ovarian cancer --- topoisomerase II inhibitor --- kinase inhibitor --- antiproliferative agent --- urea --- synthesis --- antiproliferative activity --- apoptosis --- indoleamine 2,3-dioxygenase --- inhibitor --- anti-tumor --- immune modulation --- tryptophan metabolism --- taxoids --- βIII-tubulin --- P-glycoprotein --- drug resistance --- thiopene --- thienopyrimidinone --- thiazolidinone --- breast cancer --- benzofuran–pyrazole --- nanoparticles --- cytotoxic activity --- PARP-1 inhibition --- 3,6-dibromocarbazole --- 5-bromoindole --- carbazole --- actin --- migration --- Thienopyrimidine --- Pyrazole --- PI3Kα inhibitor --- quinazolin-4(3H)-one --- quinazolin-4(3H)-thione --- Schiff base --- antioxidant activity --- DFT study --- ortho-quinones --- beta-lapachone --- tanshione IIA --- PI3Ks --- PI3Kδ inhibitors --- 2H-benzo[e][1,2,4]thiadiazine 1,1-dioxide --- anticancer agents --- protein–protein interactions --- virtual screening --- mimetics --- drug discovery --- bivalency --- polyvalency --- antitumor --- cell cycle --- ovarian cancer --- P-MAPA --- IL-12 --- TLR signaling --- inflammation --- chemoresistance --- 4-(pyridin-4-yloxy)benzamide --- 1,2,3-triazole --- c-Met --- natural product --- anticancer agent --- zampanolide --- Talazoparib --- PARP inhibitor --- prodrug --- o-nitro-benzyl --- photoactivatable protecting groups --- salinomycin --- overcoming drug resistance --- tumor specificity --- synergy --- 5-fluorouracil --- gemcitabine --- amides/esters --- colchicine analogs --- thiocolchicine --- colchiceine --- antimitotic agents --- hydrates --- dihydropyranoindole --- HDAC inhibitors --- neuroblastoma --- aromatase --- MCF-7 --- NIH3T3 --- benzimidazole --- triazolothiadiazine --- docking --- ADME --- organosilicon compounds --- SILA-409 (Alis-409) --- SILA-421 (Alis-421) --- multidrug resistance (MDR) reversal --- ABCB1 (P-glycoprotein) --- colon cancer --- colchicine amide --- colchicine sulfonamide --- tubulin inhibitors --- docking studies --- crystal structure --- PROTACs --- protein degradation --- IGF-1R --- Src --- protein kinase --- phenylpyrazolopyrimidine --- enzyme inhibition --- molecular simulation --- androgen receptor --- prostate cancer --- enzalutamide --- apalutamide --- darolutamide --- triple-negative breast cancer --- cytotoxicity --- chrysin analogues --- flavonoid --- anticancer compounds