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Cancer has been a patient-specific and difficult-to-treat disease for decades, resulting in more deaths since 1900 than all other diseases except cardiovascular diseases. As societies around the world continue to shift towards an aging population, the social and economic burden created by cancer will only rise in the coming decades, necessitating continued improvement in our cancer therapies. Remarkably, in the late 1800s, bone surgeon William Coley serendipitously discovered that bacteria could be administered to patients as an effective (and sometimes toxic) form of cancer therapy known as "Coley's Toxins". His discoveries unknowingly led to two fields of cancer therapy that have been in development for decades and are now leading to significant improvements in therapy for cancer patients: immune-based and toxin-based therapies for cancer. Articles included here discuss the discoveries that emerged from Coley's Toxins that enable us to harness the immune system and microbial toxins to combat cancers, as oncology shifts from a field dominated by chemotherapy for most of the 20th century to biologic therapies that will dominate the 21st century.

Medicine --- immunotoxin --- ribotoxin --- α-sarcin --- RNase T1 --- furin --- intracellular trafficking --- colorectal cancer --- botulinum toxin --- botulinum neurotoxin --- cancer --- cancer cells --- neuropathic pain --- post-surgical pain --- parotid gland --- submaxillary gland --- gustatory hyperhidrosis --- sialocele --- parotid fistula --- immunotherapy --- vaccine --- immune checkpoint inhibitors --- adoptive cell therapy --- cytokine therapy --- Coley's Toxins --- glioblastoma --- drug discovery --- cytotoxic necrotizing factor type 1 --- protein purification --- recombinant protein production --- shiga toxins --- Gb3/CD77 --- apoptosis --- ER stress --- autophagy --- Burkitt lymphoma --- immunotoxin --- ribotoxin --- α-sarcin --- RNase T1 --- furin --- intracellular trafficking --- colorectal cancer --- botulinum toxin --- botulinum neurotoxin --- cancer --- cancer cells --- neuropathic pain --- post-surgical pain --- parotid gland --- submaxillary gland --- gustatory hyperhidrosis --- sialocele --- parotid fistula --- immunotherapy --- vaccine --- immune checkpoint inhibitors --- adoptive cell therapy --- cytokine therapy --- Coley's Toxins --- glioblastoma --- drug discovery --- cytotoxic necrotizing factor type 1 --- protein purification --- recombinant protein production --- shiga toxins --- Gb3/CD77 --- apoptosis --- ER stress --- autophagy --- Burkitt lymphoma

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• Reference Manager
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Cancer has been a patient-specific and difficult-to-treat disease for decades, resulting in more deaths since 1900 than all other diseases except cardiovascular diseases. As societies around the world continue to shift towards an aging population, the social and economic burden created by cancer will only rise in the coming decades, necessitating continued improvement in our cancer therapies. Remarkably, in the late 1800s, bone surgeon William Coley serendipitously discovered that bacteria could be administered to patients as an effective (and sometimes toxic) form of cancer therapy known as "Coley's Toxins". His discoveries unknowingly led to two fields of cancer therapy that have been in development for decades and are now leading to significant improvements in therapy for cancer patients: immune-based and toxin-based therapies for cancer. Articles included here discuss the discoveries that emerged from Coley's Toxins that enable us to harness the immune system and microbial toxins to combat cancers, as oncology shifts from a field dominated by chemotherapy for most of the 20th century to biologic therapies that will dominate the 21st century.

immunotoxin --- ribotoxin --- α-sarcin --- RNase T1 --- furin --- intracellular trafficking --- colorectal cancer --- botulinum toxin --- botulinum neurotoxin --- cancer --- cancer cells --- neuropathic pain --- post-surgical pain --- parotid gland --- submaxillary gland --- gustatory hyperhidrosis --- sialocele --- parotid fistula --- immunotherapy --- vaccine --- immune checkpoint inhibitors --- adoptive cell therapy --- cytokine therapy --- Coley’s Toxins --- glioblastoma --- drug discovery --- cytotoxic necrotizing factor type 1 --- protein purification --- recombinant protein production --- shiga toxins --- Gb3/CD77 --- apoptosis --- ER stress --- autophagy --- Burkitt lymphoma --- n/a --- Coley's Toxins

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Antiviral agents are used for the treatment of viral diseases. Antiviral drugs have been successfully developed and used clinically for a limited number of important human viral diseases notably caused by human immunodeficiency virus (HIV), hepatitis C virus (HCV), hepatitis B virus (HBV), herpes, and influenza viruses. Despite the successes of these antiviral drugs, issues with drug resistance and toxicity remain challenging. These challenges are driving research to identify new drug candidates and to investigate novel drug targets to develop new mechanistic drug classes. Antiviral agents are not available against many viruses that cause human disease and economic burdens; in particular, the development of antiviral agents against emerging, re-emerging, and neglected viruses is increasingly becoming a priority. This book includes six review articles that discuss new antiviral strategies. The reviews either discuss advances relating to a specific virus or new therapeutic targets and approaches. The book includes 15 original research articles reporting new antiviral agents against a variety of clinically and economically important viruses and studies into the prevalence or acquisition of drug resistance. Overall, this book is an exciting collection of new research and ideas relating to the development of antiviral agents.

Research & information: general --- Biology, life sciences --- Zika virus --- nucleoside analogues --- antiviral agents --- NS5 --- prodrugs --- ProTides --- neural stem cells --- RNA-dependent RNA polymerase --- cytomegalovirus --- latent infection --- TALEN --- Surveyor nuclease mutation detection assay --- ie-1 gene --- quantitative real-time PCR --- Epstein-Barr virus --- herpes viruses --- lytic gene expression --- Burkitt lymphoma cells --- clozapine --- antipsychotic drug --- antiviral drug --- enteroviruses --- coxsackievirus B4 --- persistent infection --- fluoxetine --- resistance --- mutations --- herpes B virus --- macacine herpesvirus-1 --- genistein --- flavonoids --- acyclovir --- ganciclovir --- Plantago asiatica --- Clerodendrum trichotomum --- RSV --- therapeutic effects --- acteoside --- human antimicrobial peptides --- antiviral strategies --- defensins --- cathelicidins --- hepcidins --- transferrins --- influenza A virus --- brevilin A --- antiviral --- sesquiterpene lactone --- replication --- PRRSV --- polyethylenimine --- PEI --- virion internalization --- endocytosis --- HIV --- pediatrics --- Ethiopia --- pre-treatment drug resistance --- combination antiretroviral therapy (cART) --- dried plasma spots --- dried blood spots --- sphingolipids --- glycosphingolipids --- viruses --- lipid biosynthesis --- flavivirus --- Japanese encephalitis virus --- furin inhibitor --- precursor membrane protein --- measles virus --- central nervous system --- tropism --- treatments --- porcine reproductive and respiratory syndrome virus --- ginsenoside Rg1 --- antiviral activity --- pro-inflammatory factor --- NF-κB signaling pathway --- acute/latent infection --- congenital infection --- antiviral agent --- therapeutic strategies --- nucleic acid-based therapeutic approach --- HCMV vaccine --- adoptive cell therapy --- Rev response element --- chemical footprinting --- SHAPE --- drug discovery --- branched peptides --- herpesvirus --- immediate-early --- IE1 --- IE2 --- ribozyme --- RNA interference --- CRISPR/Cas --- small molecule --- orthohantavirus --- phenyl-benzotriazoles --- C-FRA --- Porcine circovirus type 2 --- epigallocatechin gallate --- heparan sulfate --- antiviral effect --- virus attachment --- microvirin --- lectin --- human immunodeficiency virus --- hepatitis C virus --- antiviral inhibitor --- non-immunogenic --- viral entry --- protein drugs --- LUMS1 --- oleanane-type derivatives --- influenza A virus (IAV) --- virus entry inhibitors --- hemagglutinin (HA) --- Zika virus --- nucleoside analogues --- antiviral agents --- NS5 --- prodrugs --- ProTides --- neural stem cells --- RNA-dependent RNA polymerase --- cytomegalovirus --- latent infection --- TALEN --- Surveyor nuclease mutation detection assay --- ie-1 gene --- quantitative real-time PCR --- Epstein-Barr virus --- herpes viruses --- lytic gene expression --- Burkitt lymphoma cells --- clozapine --- antipsychotic drug --- antiviral drug --- enteroviruses --- coxsackievirus B4 --- persistent infection --- fluoxetine --- resistance --- mutations --- herpes B virus --- macacine herpesvirus-1 --- genistein --- flavonoids --- acyclovir --- ganciclovir --- Plantago asiatica --- Clerodendrum trichotomum --- RSV --- therapeutic effects --- acteoside --- human antimicrobial peptides --- antiviral strategies --- defensins --- cathelicidins --- hepcidins --- transferrins --- influenza A virus --- brevilin A --- antiviral --- sesquiterpene lactone --- replication --- PRRSV --- polyethylenimine --- PEI --- virion internalization --- endocytosis --- HIV --- pediatrics --- Ethiopia --- pre-treatment drug resistance --- combination antiretroviral therapy (cART) --- dried plasma spots --- dried blood spots --- sphingolipids --- glycosphingolipids --- viruses --- lipid biosynthesis --- flavivirus --- Japanese encephalitis virus --- furin inhibitor --- precursor membrane protein --- measles virus --- central nervous system --- tropism --- treatments --- porcine reproductive and respiratory syndrome virus --- ginsenoside Rg1 --- antiviral activity --- pro-inflammatory factor --- NF-κB signaling pathway --- acute/latent infection --- congenital infection --- antiviral agent --- therapeutic strategies --- nucleic acid-based therapeutic approach --- HCMV vaccine --- adoptive cell therapy --- Rev response element --- chemical footprinting --- SHAPE --- drug discovery --- branched peptides --- herpesvirus --- immediate-early --- IE1 --- IE2 --- ribozyme --- RNA interference --- CRISPR/Cas --- small molecule --- orthohantavirus --- phenyl-benzotriazoles --- C-FRA --- Porcine circovirus type 2 --- epigallocatechin gallate --- heparan sulfate --- antiviral effect --- virus attachment --- microvirin --- lectin --- human immunodeficiency virus --- hepatitis C virus --- antiviral inhibitor --- non-immunogenic --- viral entry --- protein drugs --- LUMS1 --- oleanane-type derivatives --- influenza A virus (IAV) --- virus entry inhibitors --- hemagglutinin (HA)