Thought to be an oncogene, a gene that has potential in transforming normal cells into tumor cells, p53 was regarded as the most prominent tumor suppressor gene [1]. P53 is a gene which signals apoptosis (programmed cell death) if a cell cannot be repaired due to an extensive amount of damage. As stated in the textbook, p53 regulation occurs by an E3 ubiquitin-protein ligase known as MDM2 [1]. "Controlling the controller" is a statement that describes the molecular interaction where the presence of MDM2 targets the p53 for proteosome via degradation. With three main checkpoints in cell cycle, the literature states p53 functioning from G1 into S phase in a chaotic cell [2]. The normal state of cells is to keep p53 levels low in order to prevent uncontrolled apoptosis and random cell cycle arrest from occurring. In a further note, although p53 promotes apoptosis and cell cycle arrest, cancer may result from p53 unable to recognize the problematic site. In turn, a mutation in p53 may result engaging in new activities. These activities include cellular transformation, tumor metastasis,...
Specifically “TP53, p16INK4A, and SMAD4. The p53 nuclear protein activates transcription of a cyclin kinase inhibitor p21WAF1/CIP1. Following genomic stress, inappropriate growth factor stimulation or expression of oncogenic ras increased expression of p53, and thus p21WAF1/CIP1 resulted in inactivation of specific CDK/cyclin complexes” (MedScape). If this transformed cell can escape internal and external fail-safe mechanisms, receive nutrients, and activate its proliferative program, it can form a mass of cancerous cells. Tumor growth can cause the loss of pancreatic functions. Another characteristic of pancreatic cancer is metastasis happens early in tumor growth, which is most likely responsible for pancreatic cancer’s aggressive
I have chosen to write about the constellation Cancer (The Crab). I chose Cancer because it is one of only a handful of constellations that I am actually able to identify in the night sky. Cancer is one of the twelve Zodiac constellations; people whose birthdays fall between June 21st and July 22nd have Cancer as their sign. Cancer is the Latin word for crab, and despite the fact that the constellation looks more like a lobster then a crab, it is still referred to as a crab. The constellation is visible from the northern hemisphere from late winter to early spring.
Li, Y., Wicha, M. S., Schwartz, S. J., & Sun, D. (2011, February 4). Implications of Cancer Stem Cell Theory for Cancer Chemoprevention by Natural Dietary Compounds. Retrieved December 12, 2013, from http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3248810/
This paper focuses on the benefits of stem cell research in the medical and nursing field. New technology is always being created to help us understand the way the human body works, as well as ways to help us improve diseased states in the body. Our bodies have the ability to proliferate or regrow cells when damage is done to the cells. Take for example the skin, when an abrasion or puncture to the skin causes loss of our skin cells, the body has its own way of causing those cells to regrow. The liver, bone marrow, heart, brain, and muscle all have cells that are capable of differentiating into cells of that same type. These are called stem cells, and are a new medical tool that is helping regrow vital organs in our body to help us survive. Stem cells can come from adult cells, or the blastocyst of the embryo. The cells that come from these are undifferentiated, and can be specialized into certain cell types, making them available for many damaged tissues in the body. While using stem cells in the body is a main use, they are also being used to help doctors understand how disease processes start. By culturing these cells in the lab and watching them develop into muscles, nerve cells, or other tissues, researchers are able to see how diseases affect these cells and possibly discover ways to correct these diseases. While researchers have come very far in using stem cells, there are still many controversies to overcome when using these cells.
Yearly, around six hundred to nine hundred people are diagnosed with Aplastic Anemia within the United States. Aplastic Anemia is a autoimmune hematological disorder that causes pancytopenia which is a reduction in major blood components, namely, erythrocytes, leukocytes and platelets. This disease has been labelled as a type of bone marrow failure, that is often due to not one but a variety of disorders that occur simultaneously. Aplastic Anemia can therefore be defined as a bone marrow disorder that is often rare, non contagious, and can often be life threatening.
Acute Myeloid Leukemia (AML) is the most common type of acute leukemia in adults. AML is a heterogeneous disease which results from genetic alterations in normal hematopoietic stem cells. These alterations induce differentiation arrest and/or excessive proliferation of abnormal leukemic cells or blasts [1]. Recent genomic studies have identified that recurrent somatic mutations in patients with AML blocks differentiation and/or enhance self-renewal by altered transcription factors [2,3]. The genetic or the epigenetic changes acquired by AML cells disrupt the key growth regulatory pathways and changes will make the normal cells to attain certain malignant characteristics which include inappropriate proliferation in the absence of normal growth signals, indefinite self-renewal in a manner analogous to a stem cell, escape from programmed cell death, inhibition of differentiation, aberrant cell cycle checkpoint control and genomic instability [4].
Cancer has been seen in humans as one the most potentially fatal disease for thousands of years and only in the recent couple of hundred years have we discovered that most information necessary to bring us to today’s understanding and knowledge (Kenny 2007, Weinberg 1996) was achieved by extensive research of cells, DNA, and epidemiology studies. As we know, currently cancer is acknowledged as having over a hundred different diseases, and is known to be the result of mutations of the genes and almost similar DNA which are responsible for the amount of cell division and production (Kenny 2007). Restraint of cell growth modulators can be a direct lead and result of certain tumours being developed and subsequently allow these tumours to acquire the ability to attack and occupy the bloodstream and essentially be able to travel via the bloodstream to other parts and organs in human bodies which is known as metastasis (Loeb et Al 2003). Once this has occurred , the cancer is then categorized as malicious and becomes a dangerous and serious threat to the carrier (Weinberg 1996). In this essay I will describe and explain the process of this and how our genes mutate and lead to metastasis of cancer cells.
Healthy cells grow and divide in a way to keep your body functioning properly. But when a cell is damaged and becomes cancerous, cells continue to divide, even when new cells aren't...
...l risk factors that are fully linked developing multiple myeloma. Therefore, preventative measures remain unknown.
Cancer is a disease that affects human somatic cells. It causes the cells to divide uncontrollably and form masses known as tumors. There are two different types of cancer tumors. Some tumors are benign and other tumors are malignant. Benign tumors look similar to the tissues that they came from and develop slowly. The tumor remains in the same area that the tumor originated in. Malignant tumors are formed from cells that do not resemble the tissue that they came from. They vary in shape and size. This enables pieces of the tumor to break off and spread to other places in the body. Over the past few decades cancer has become a very prominent disease. There are many different types of cancer and many different causes for the the disease. Most cancers are because of a genetic mutation. The most common type occur when a cell is dividing. Proto-oncogenes, which are alleles in a normal cells, mutate to form oncogenes. These oncogenes cause cancer because they do not allow the cells to self destruct or become epistatic. There have been several research projects which have been testing epistatis.
Tumors are formed by the alteration of the body’s own cells. This can be caused by environmental factors such as radiation, like UV exposure, chemicals or viruses 1. These can disrupt genes that control growth and cause an increase in cell division and proliferation. Proto-oncogenes are those genes that control normal but essential cell processes that keep cell growth and death in check. Two important categories are apoptosis genes, which regulate cell death, and tumor suppressor genes, which decrease cell propagation 1 . If these genes were mutated to the point where they cannot produce a functioning protein, cell division would continue far past what it was supposed to and unhealthy cells would be allowed to live and continue to multiply. This is what creates a malignant tumor. Certain conditions in the body can also promote the growth of cancer cells. One of these is a deficiency of natural killer (NK) cells, which are able to kill cancer cells by creating a pore in the cell membrane with perforin and releasing granzymes into the cell. Low levels of perforin allow for tumor growth 1. Chronic inflammation can also ...
Science’s contribution to humanity is utterly inspiring and exceeds that of any other. As civilized beings we rely on scientific advances and perpetual questioning to sustain ourselves. To venture into this path of boundless grounding will be a huge challenge, but the very idea of devoting myself into the versatile field ignites my ambition for Biomedical Science. I believe that the course’s delicate balance between learning and laboratory work, along with its applicability to real healthcare communities will quench my immense zeal for Science.
According to Rubin et. al (2015), stated that the nature of cancer control is changing with an increasing emphasis on prevention, early diagnosis, and patient experience during and after treatment. Primary care is defined by World Health Organization (WHO) as the first-contact, accessible, continued, comprehensive and coordinated care. Secondary care are likely to prompt referral or further investigation and management. Finally, tertiary care likely to represent malignancy, and need rapid work-up and referral such as abdominal mass.
Because cells are the ‘basic unit of life’, the study of cells, cytology, can be considered one of the most important areas of biological research. Almost every day on the evening news, we are told about new discoveries in cell biology, such as cancer research, cloning, and embryology. (https://highered.mheducation.com/sites/0073031216/student_view0/exercise3/the_importance_of_cell_biology.html)
Dr. Jon Schiller describes genetic medicine as the newer term for medical genetics and incorporates areas such as gene therapy, personalised medicine and a new emerging speciality, predictive medicine. Medical genetics is the specialty of medicine that involves the diagnosis and management of hereditary disorders (Dr. Jon Schiller, 2010).