Tag: Cancer

Cancer, Cell Cycle

Invasion of the Gboxins: Inhibiting the Proliferation of Glioblastoma Cells

By Riya Gandhi ‘22 The aggressive proliferation of glioblastoma cells is characteristic of glioblastoma multiforme (GBM), a fatal cancer of the brain. As much as treatments may help, patients with this cancer typically relapse. Furthermore, radiotherapy and chemotherapy unintentionally target and poison normal proliferating cells, thereby harming the wellbeing of the patients. However, under principle investigator Dr. Yufeng Shi, researchers at the Cancer Biology & … Continue reading Invasion of the Gboxins: Inhibiting the Proliferation of Glioblastoma Cells

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2018-19

Cancer Cells Hijack Immune Cells

By Allan Mai ‘20 A sure sign of the progression of cancer occurs when tumor cells from the initial site of development breaks off and enters the bloodstream, invading other healthy tissue. A recently published study conducted by Barbara Szczerba and her team from the Cancer Metastasis Lab at the University of Basel found that circulating tumor cells (CTCs) are associated with white blood cells, … Continue reading Cancer Cells Hijack Immune Cells

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2018-19

Protecting You from Yourself: The Function of Interleukin-22 Against Genotoxic Stress

By Riya Gandhi ‘22 Genotoxic stress is defined as an agent that disrupts or impairs genetic information within a cell and leads to mutations. If not repaired, these mutations often develop into cancer. Within epithelial stem cells, for example, there is a pathway called the DNA damage response (DDR) that halts the cell cycle and induces DNA repair or destruction of impaired cells through apoptosis. … Continue reading Protecting You from Yourself: The Function of Interleukin-22 Against Genotoxic Stress

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2018-19

Potassium’s Role in Stem Cell Proliferation

By Riya Gandhi ‘22 Human cells multiply at high speeds to maintain proper functioning of the human body. Even when occur and cancerous growths appear, the cell cycle does not cease; as a result, the number of malignant cells rapidly increases. One aspect in the chemistry of cell proliferation is clear: monovalent ions contribute to the cell cycle. The specifics of their role, however, are … Continue reading Potassium’s Role in Stem Cell Proliferation

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2018-19

Mind the Gap! Nanoparticles Increase Endothelial Leakiness

By Riya Gandhi ‘22 Although recent advancements in the field of nanomedicine are elucidating potential novel therapies for cancer, researchers have uncovered one major drawback called gap growth. Under the leadership of principal investigator Fei Peng, a recent study at the National University of Singapore discovered that the introduction of nanomaterial into animal bodies may result in micro-sized gaps in the endothelial lining, which can … Continue reading Mind the Gap! Nanoparticles Increase Endothelial Leakiness

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Cancer, Pharmacology

Protein WTp53: Fights Tumors or Boosts Cancer?

By Ellie Teng ‘21 A prominent protein in cancer research, p53, is known for its cancer fighting abilities. p53 suppresses the initiation of tumor growth by inhibiting the cancer metabolic switch from oxidative phosphorylation to glycolysis. Glycolysis is attributed to cancer metabolism and is required for tumorigenesis, or the formation of tumors. Essentially, p53 protects the genome against mutations and prevents the mutations from being … Continue reading Protein WTp53: Fights Tumors or Boosts Cancer?

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Cancer, Cell Cycle

BH4’s Role in T- Cell Proliferation in Autoimmunity and Cancer

By Allan Mai ‘20 BH4 is an important regulator of many bodily functions. Among its most important functions are its involvement in the production of monoamine neurotransmitters, its generation of nitric oxide, and its role in pain. However, Shane Cronin and his team recently uncovered another important function of this cofactor: proliferation of T cells, which are an integral part of the immune response. Inhibitions … Continue reading BH4’s Role in T- Cell Proliferation in Autoimmunity and Cancer

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Cell Cycle, Disease

Inducing Leukemia Cell Death Through the Inhibition of Amino Acids

By Riya Gandhi ‘22 Thanks to chemotherapy, acute myeloid leukemia (AML) is not the most fatal kind of cancer. However, the same chemotherapy that treats the disease may also revitalize leukemia stem cell populations, thereby increasing the probability of relapse. As such, scientists are still actively researching alternative treatments and cures. Most recently, researchers looked into the importance of amino acids for preventing the growth … Continue reading Inducing Leukemia Cell Death Through the Inhibition of Amino Acids

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Cell Cycle, Disease

Expression of Transcription Factor TP63 Reprograms Squamous Pancreatic Ductal Adenocarcinoma Cells

By Riya Gandhi ‘22 Although pancreatic cancer is not the most common type of cancer, the prognosis for those diagnosed with the disease is very poor. Much like any other cancer, pancreatic cancer develops when cells in the organ multiply at an uncontrollable rate. Pancreatic ductal adenocarcinoma (PDA), the most common type of pancreatic cancer, garnered the attention of researchers at Cold Spring Harbor Laboratory … Continue reading Expression of Transcription Factor TP63 Reprograms Squamous Pancreatic Ductal Adenocarcinoma Cells

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Cancer, Cell Cycle

Inducing Tumor Cell Death by RIG-I: The Future of Breast Cancer?

By Riya Gandhi ‘22 In recent years cancer therapy – especially cancer immunotherapy – has gained momentum and scientists’ interest has turned to immune checkpoint inhibitors (ICIs). ICIs aid in the suppression of checkpoint receptors to produce powerful immune responses against tumors. Although such a procedure is gaining momentum in clinical settings, much research must be done to legitimize this treatment for breast cancer. Under … Continue reading Inducing Tumor Cell Death by RIG-I: The Future of Breast Cancer?

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Cancer, Embryonic Development

Investigating the Link Between Cancer Cells and Embryonic Cells to Treat Cancer

By Snigdha Kanadibhotla ‘21 Fundamentally rooted in a lack of cell cycle control, cancer is predicted to affect 38.4% of Americans within their lifetimes (1). While most healthy cells are regulated by three cell cycle checkpoints, cancerous cells can bypass these regulatory systems, which leads to uncontrolled division and metastasis (the spread of cancer through the body). Considered to be a unique characteristic of cancer, … Continue reading Investigating the Link Between Cancer Cells and Embryonic Cells to Treat Cancer

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Cell Cycle

Eradicating Subpopulations of Melanoma-Initiating Cells Using Nifuroxazide

By Riya Gandhi ‘22 In an age in which cancer is the second leading cause of death worldwide, scientists are seeking to discover and develop novel treatments for the disease. Sometimes, although rarely, the answer is just at their fingertips. In a recent study, a team of researchers from the University of Edinburgh sought to understand the mechanism by which 5-nitrofuran antibiotics, also known as … Continue reading Eradicating Subpopulations of Melanoma-Initiating Cells Using Nifuroxazide

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