1.Scavenger Receptor Class A to E Involved in Various Cancers
Sunhyo RYU ; Amanda HOWLAND ; Brendon SONG ; Chakyung YOUN ; Peter I SONG
Chonnam Medical Journal 2020;56(1):1-5
Scavenger receptors typically bind to multiple ligands on a cell surface, including endogenous and modified host-derived molecules and microbial pathogens. They promote the elimination of degraded or harmful substances such as non-self or altered-self targets through endocytosis, phagocytosis, and adhesion. Currently, scavenger receptors are subdivided into eight classes based on several variations in their sequences due to alternative splicing. Since recent studies indicate targeting scavenger receptors has been involved in cancer prognosis and carcinogenesis, we will focus on the current knowledge about the emerging role of scavenger receptor classes A to E in cancer progression.
2.Melanoma Cell Death Mechanisms.
Lindsey BROUSSARD ; Amanda HOWLAND ; Sunhyo RYU ; Kyungsup SONG ; David NORRIS ; Cheryl A ARMSTRONG ; Peter I SONG
Chonnam Medical Journal 2018;54(3):135-142
Over recent years, several new molecular and immunogenic therapeutic approaches to melanoma treatment have been approved and implemented in clinical practice. Mechanisms of resistance to these new therapies have become a major problem. Mutation-specific pharmacotherapy can result in simultaneous emergence of resistant clones at many separate body sites despite an initially positive therapeutic response. Additionally, treatments aimed at inducing apoptosis are subject to resistance due to escape through other known mechanisms of regulated cell death (RCD). In this review, we discuss the complexity in pharmacological manipulation of melanoma with c-Kit, BRAF, MEK, and/or mTOR mutant cell lines. This study also addresses melanoma evasion of cell death through modalities of RCD such as apoptosis, autophagy, and necroptosis. This study also examines new combination therapies which have been approved to target both cell cycle dysregulation and cell death pathways. Lastly, we recognize the importance of immunomodulation though manipulation of the body's natural killing mechanisms with CTLA4, PD1, and CSF1 inhibition. As we begin to recognize tumor cell activation of alternate pathways, evasion of programmed cell death, and manipulation of the tumor microenvironment, it is increasingly important to grasp the complexity of personalized therapy in melanoma treatment.
Apoptosis
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Autophagy
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Cell Cycle
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Cell Death*
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Cell Line
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Clone Cells
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Drug Therapy
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Hand Strength
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Homicide
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Humans
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Immunomodulation
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Melanoma*
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TOR Serine-Threonine Kinases
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Tumor Microenvironment
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United Nations
3.Therapeutic Inhibitors against Mutated BRAF and MEK for the Treatment of Metastatic Melanoma
Sunhyo RYU ; Chakyung YOUN ; Ae Ran MOON ; Amanda HOWLAND ; Cheryl A ARMSTRONG ; Peter I SONG
Chonnam Medical Journal 2017;53(3):173-177
Melanoma is one of the most aggressive cancers in the world and is responsible for the majority of skin cancer deaths. Recent advances in the field of immunotherapy using active, adoptive, and antigen-specific therapeutic approaches, have generated the expectation that these technologies have the potential to improve the treatment of advanced malignancies, including melanoma. Treatment options for metastatic melanoma patients have been dramatically improved by the FDA approval of new therapeutic agents including vemurafenib, dabrafenib, and sorafenib. These kinase inhibitors have the potential to work in tandem with MEK, PI3K/AKT, and mTOR to inhibit the activity of melanoma inducing BRAF mutations. This review summarizes the effects of the new therapeutic agents against melanoma and the underlying biology of these BRAF inhibitors.
Biology
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Humans
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Immunotherapy
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Melanoma
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Mitogen-Activated Protein Kinase Kinases
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Phosphotransferases
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Skin Neoplasms