Ceramide is an important physiological compound. Ceramide is a precursory molecule used in forming various sphingolipids, which are a major component of the phospholipid bilayer (Slotte, 2013). Sphingolipids, and by extension ceramides, appear connected to several physiological conditions and disease states. These include neurodegenerative diseases, cardiovascular diseases, immune-mediated diseases, metabolic disease states, and cancer (Huang). A thorough understanding of many of these mechanisms are yet to be completely understood (Kolter). These connections with physiological conditions make ceramide an interesting area for further research. Sphingolipidoses groups several physiological conditions relating to dysregulation of sphingomyelin.
The purpose for this lab was to use aluminum from a soda can to form a chemical compound known as hydrated potassium aluminum sulfate. In the lab aluminum waste were dissolved in KOH or potassium sulfide to form a complex alum. The solution was then filtered through gravity filtration to remove any solid material. 25 mLs of sulfuric acid was then added while gently boiling the solution resulting in crystals forming after cooling in an ice bath. The product was then collected and filter through vacuum filtration. Lastly, crystals were collected and weighed on a scale.
The purpose of conducting experiment was to determine the identity of white compound. Based on the 5 gram of unknown white compound several experiment conducted including solubility test, pH test, flame test, and ion test. Several materials including chemicals used throughout experiment and will be described through paragraphs.
Atherosclerosis is a pathological condition that underlies several important adverse vascular events such as stroke, cerebrovascular disease, Coronary Artery Disease (CAD). etc. [1]. It is responsible for most of the cardiovascular morbidity and mortality in the Western World currently [2]. As a result of the adoption of the western life style, its prevalence is increasing all over the world and could likely reach epidemic status in the coming future [2]. Atherosclerosis is a chronic disease of the arterial wall whose underlying pathogenesis involves an imbalanced lipid metabolism and a maladaptive immune response involving chronic inflammation of the arterial wall [1]. Leukocyte trafficking shapes the disturbed equilibrium of lipid accumulation, immune responses and their clearance and homeostasis, and this leukocyte trafficking is governed by chemokines and their receptors [1]. Chemokines are a superfamily of small structurally related chemotactic cytokines, which are involved in leukocyte trafficking and activation [3]. Chemokines have been found to play major roles in selectively recruiting monocytes, neutrophils, and lymphocytes, as well as in inducing chemotaxis through the activation of G-protein-coupled receptors [4]. Additionally, chemokines and their receptors have been identified as key players in the progression of atherosclerosis, thus they are explored in order to find therapeutic targets to prevent or treat Atherosclerosis and by targeting the chemokine system various entry points for a causative treatment are offered [5]. In this essay, the role of chemokine system in atherosclerosis is visited, the strategies employed to target chemokines as a therapeutic pathway for atherosclerosis and clinical trials undertaken ...
David Fincher’s 1999 noir film Fight Club, managed to shatter the barriers between reality and fantasy; while simultaneously expressing ideas against the massive consumer culture. The lack of this barrier allowed the film to maintain a psychotic uncertainty for both the characters in the film and the spectators. Fincher achieved the psychotic theme through noir thematic and stylistic devices such as the narration and disorientation of the film. These devices allow the film to be classified as noir.
...on and forms an inhibitory complex with caveolin-1 leads to decrease in activity of enzyme in the cells. Transcription of Cav-1 gene is regulated by cholesterol responsive elements. Exposure of fibroblast and endothelial cells to free cholesterol and LDL Cholesterol was found to up regulate Cav-1 expression. Ca+2 mobilizing agents cause disinhibiton of e NOS by promoting Ca+2/Calmodulin triggered dissociation of Cav-1.
Cardiovascular disease is currently the leading cause of death in the United States. It is responsible for one in four deaths every year, about 600,000 mortalities. This disease affects men and women, as well as every ethnic group. Coronary artery disease is the most common cardiovascular disease, representing approximately 400,000 deaths per year of the aforementioned 600,000 total deaths from cardiovascular diseases as a whole. In 2010 alone, coronary artery disease cost the United States $108.9 billion for health care services, medication, and lost productivity. These chilling statistics, published every year by the American Medical Association, demonstrate the immediate need for new and innovative ways to prevent, detect, and treat coronary heart disease. This paper will explore the molecular biology behind the disease while explaining the current treatments and prevention that are available today, why they work and what can be done to improve them.
The late sixties were a time filled with sex, drugs, and rock and roll. A huge part of American culture at the time was focused around these three things. Musicians possessed a tremendous amount of social influence, and like wise, society put a lot of emphasis on the lives and attitudes of musicians. Of the rock groups from this time period, the Beatles were by far the most influential. The British rock group was probably the most catalytic band in rock and roll history. Although they came together in the shadow of the Beatles, another band of that era was Jefferson Airplane. Jefferson Airplane was deemed the first of the San Francisco psychedelic rock groups. Jefferson Airplane was always considered to be a psychedelic rock group, but it was not until later in their existence that the Beatles fell into this category as well. Both groups earned this title for their creative style of rock as well as for their experimentation with drugs. Each of these groups wrote songs that alluded to drug use at one time or another. Two of the most criticized songs from these bands are Lucy in the Sky with Diamonds by the Beatles, and White Rabbit by Jefferson Airplane. White Rabbit is a song latent with drug references. The connection with drugs in Lucy in the Sky with Diamonds is not as clear. Although John Lennon claims that he had no intention of making references to LSD in his song, the abstract lyrics and metaphoric language invite drug connotation. Lucy in the Sky with Diamonds and White Rabbit mirror each other in their association with LSD and their allusions to Alice in Wonderland, but looking into these songs more deeply it is obvious that both artists were writing about escape; escaping reality.
useful in the relief of mild to moderate pain. It is also used as a cough remedy
The cell plasma membrane, a bilayer structure composed mainly of phospholipids, is characterized by its fluidity. Membrane fluidity, as well as being affected by lipid and protein composition and temperature (Purdy et al. 2005), is regulated by its cholesterol concentration (Harby 2001, McLaurin 2002). Cholesterol is a special type of lipid, known as a steroid, formed by a polar OH headgroup and a single hydrocarbon tail (Wikipedia 2005, Diwan 2005). Like its fellow membrane lipids, cholesterol arranges itself in the same direction; its polar head is lined up with the polar headgroups of the phospholipid molecules (Spurger 2002). The stiffening and decreasing permeability of the bilayer that results from including cholesterol occurs due to its placement; the short, rigid molecules fit neatly into the gaps between phospholipids left due to the bends in their hydrocarbon tails (Alberts et al. 2004). Increased fluidity of the bilayer is a result of these bends or kinks affecting how closely the phospholipids can pack together (Alberts et al. 2004). Consequently, adding cholesterol molecules into the gaps between them disrupts the close packing of the phospholipids, resulting in the decreased membrane fluidity (Yehuda et al. 2002).
Oxidative stress is critical as it is extensively related to human diseases, such as rheumatoid arthritis, Alzheimer’s, Parkinson’s, diabetes, cataract, aging and cancer (Zhao and Zha...
Coronary artery disease (CAD) is the number one killer in America, affecting more than 13 million people. CAD occurs when a fatty substance called plaque builds up in the coronary arteries. These arteries disperse oxygen-ric...
There are many risk factors which can lead to the development of atherosclerosis. As can be expected, one of the risks factors for atherosclerosis is related to the abnormal level of blood lipids. The role of abnormal blood lipids in the development of atherosclerosis is providing the boost required for lipid to be transported to cells, as well as the production of reactive oxygen and free radicals (p.700). Moreover, the quantity of cholesterol carried by low-density lipoproteins (LDLs) in the arterial wall is critical in the development of atherosclerosis (McCance
Cardiovascular disease is currently the nation’s leading non-communicable cause of morbidity and mortality. According to the American Heart Association, the most common form of cardiovascular disease is coronary artery disease, a condition in which the heart’s blood supply is reduced due to a narrowing of the coronary arteries. These arteries play a significant role in regulating the flow of oxygenated blood to the heart. As blood circulates through the arteries, it exerts a force against the vessel walls, known as blood pressure. To withstand this pressure, elastic fibers interspersed along the artery walls allow the arteries to expand and recoil. Abnormally high blood pressure, however, will cause these muscles to thicken as a result of tears in the damaged artery walls trapping particles that aggregate as plaque. Progressive build-up of plaque ultimately leads to a narrowing of the arteries, subsequently diminishing blood flow to the heart and other body organs. This cascade of events triggered by high blood pressure illustrates why hypertension is one of the most important risk factors for cardiovascular disease. Affecting 1 in every 3 adults in the United States alone, hypertension substantially raises the risk for heart disease in an affected individual who, most likely, does not show any signs or symptoms. In addition to the risks associated with this “silent killer,” comorbidities such as obesity, diabetes, and high cholesterol can drastically worsen health outcomes in hypertensive patients. Given the high prevalence and severe consequences of hypertension if undetected, researching this particular topic will increase our understanding of the causes of hypertension by identifying and narrowing down lead candidates for pot...
Cancer is one of the leading causes of death worldwide as it can develop in almost any organ or tissue. Significant advances in understanding the cellular basis of cancer and the underlying biological mechanisms of tumour has been vastly improved in the recent years (Jiang et al. 1994). Cancer is a genetic disease which requires series of mutation during cell division to develop, it has characteristics which can be associated with their ability to grow and divide abnormal cells uncontrollable while in the mean time invade and cause nearby blood vessels to serve its need. Even though many people are affected by cancer today, the abilities which cancer cells own make it hard to find single effective treatment for cancer. The focus of research now lies on developing drugs which target cancer cells in the hope to cure cancer once and for all.
A Comparison of Pilocarpine and Cevimeline in the Treatment of Xerostomia to Prevent Dental Caries