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Can we treat inflammatory bowel disease by holding the cells of the immune system captive?

Teachable moment in classrooms:

  1. cellular basis of life chapter – cell membrane proteins can function as receptors
  2. digestive system chapter – anatomy of the digestive system, location of large intestine
  3. digestive system chapter – layers of the gastrointestinal tract, location of mucosa
  4. immune system chapter – cell-based immunity depends on cytotoxic T-lymphocytes

The news item:  Recently the following article appeared online:

New drug for IBD, ulcerative colitis wins FDA approval: ‘Amazing results’

“We’re seeing pretty amazing results” with newer treatments, said one expert. “If you look over the last few years, it’s been game-changing.”

The article states that inflammatory bowel disease and ulcerative colitis are diseases of the lining of the large intestine and rectum where open sores develop, and while the precise cause is unknown, we consider this a consequence of the improper functioning of the immune system. The article describes the symptoms as diarrhea, abdominal pain, fatigue, and rectal bleeding. The article states that the current steroid and other injectable treatments are effective, but patients could be treated easier with oral medication.

So, Why Do I Care??  Each year over 70,000 people in the US are diagnosed with inflammatory bowel disease; currently about 2.1 million people are treated for the disease. Because the symptoms are debilitating, and treatment options have been limited to injectable drugs, the significance of Etrasimod (Velsipity) is that it provides a treatment option using oral medication instead of injections.

Plain English, Please!!!   First, let’s talk about what inflammatory bowel disease is. This disorder happens when the immune system overreacts to viruses or bacteria in the gastrointestinal tract (GI-tract), the tube-shaped part of the digestive system going from the mouth to the anus. Most of the time the large intestine and the rectum are the location for inflammation. The overactive immune system sends a large number of cytotoxic T-lymphocytes to the inner lining, the mucosa, of the GI-tract. Once there, those T-lymphocytes release inflammatory mediators that cause vasodilation, and eventually tissue damage. The damaged mucosa prevents absorption of nutrients and causes bleeding and diarrhea.

Second, let’s talk about how the immune system becomes overactive during the disease. Normally most of the T-lymphocytes reside in the lymph nodes limiting the number of T-lymphocytes released into

How can a drug like Descovy prevent infection by the human immunodeficiency virus?

Teachable moment in classrooms:

  1. immune system chapter – role of CD4 Helper T cells in adaptive immunity
  2. chemical basis of life – structural characteristics of DNA and RNA
  3. cellular basis of life chapter – transcription of DNA into RNA during protein synthesis
  4. microbiology – structure of the viral protein envelope of HIV (human immunodeficiency virus)

The news item:  Recently the following report appeared online:

U.S. FDA approves Gilead’s Descovy for HIV prevention

The approval does not include use of the drug by women to prevent HIV infection. Descovy, a combination drug, was approved in 2016 to treat people already infected with HIV. It contains a newer formulation of a drug used in Gilead’s older medication, Truvada, which has been used to treat people infected with HIV since 2004.

 

The article states that Descovy is a pharmaceutical approved for pre-exposure prophylaxis, the  prevention of HIV infection in men. Descovy was found to be less toxic to the kidneys and bones than  previous drugs used to treat HIV infected people.

So, Why Do I Care??  In the US alone there are over 1 million people living with HIV (human immunodeficiency virus) infection, and each year there are 30,000 – 40,000 new HIV infections. The new infections happen despite the already available preventative measures. Therefore, pharmaceutical prevention of new infections is still important.

Plain English, Please!!! First, let’s talk about how Descovy is expected to prevent infection by HIV in highly exposed individuals. The clinical definition of HIV infection is that the HIV virus should be detectable in human bodily fluids. For HIV virus to appear in the blood or in other bodily fluids, the infected cells must make a swarm of new HIV viruses to spread through the body and enter into the blood and other bodily fluids. The ingredients of Descovy promise to prevent the cells from making new viruses, so there will be no swarm of new HIV viruses, there will not be enough viruses to spread through the body, so HIV viruses never enter bodily fluids. Therefore, even in people frequently exposed to the HIV virus the blood testing doesn’t find any HIV, and the person remains clinically uninfected, remains HIV-negative. This prevention of infection is called “pre-exposure prophylaxis”. An HIV-negative person cannot spread the virus to other people, so the number of new HIV infections are reduced.

Second, let’s talk about the ingredients of Descovy. Both active ingredients (emtricitabine, and tenofovir alafenamide) are inhibitors of the enzyme called reverse transcriptase of the HIV virus. That enzyme is

How can the genetic engineering treatment of red bone marrow by Zynteglo help beta-thalassemia patients?

Teachable moment in classrooms:

  1. cellular basis of life chapter – concept of one gene, one protein
  2. cellular basis of life chapter – concept of gene mutation leading to protein malfunction
  3. cellular basis of life chapter – mRNA translation is needed for protein synthesis
  4. blood chapter – red blood cells are made in the red bone marrow
  5. blood chapter – the role of globin chains in hemoglobin function

The news item:  Recently the following report appeared:

https://timesnewscity.com/bluebirds-2-8m-gene-therapy-becomes-most-expensive-drug-after-us-approval/

The article states that about 1,500 patients need blood transfusion every 2-5 weeks, and that Zynteglo is a gene therapy.

So, Why Do I Care??

The most severe type of beta-thalassemia causes serious anemia with the symptoms of continuous lethargy, fatigue, tiredness. To fight this, the patients require regular blood transfusions. Those patients expected to live until about the age of 50. in the US there are about 1500-3000 such patients. New treatment approaches give the hope of longer life to those patients.

Plain English, Please!!! First, let’s talk about what beta-thalassemia is. This disorder is caused by the missing beta-globin protein in hemoglobin. The protein is missing because the beta-globin gene has mutations that prevent the mRNA formation for beta-globin. The outcome is that hemoglobin is abnormal, because it is formed only from the alpha-globin proteins. Such abnormal hemoglobin makes cells of the red bone marrow to burst, reducing the production of oxygen transporter red blood cells. The decreased oxygen transport cause anemia, the starvation of cells for oxygen.

Second, let’s talk about how red blood cells are made. The damage of the beta-thalassemia is done in the red bone marrow, where red blood cells are formed. In the red bone marrow the red blood cells move

Can we really diagnose concussion from a blood test?

TeachableMedicalNews article 05292023

Teachable moment in classrooms:

  1. cellular basis of life chapter – intermediate filaments are part of the cytoskeleton
  2. nervous system chapter – neurons and astrocytes are cells of the nervous system
  3. brain chapter – meninges are protective coverings of the central nervous system
  4. cardiovascular system chapter – reabsorption during capillary exchange brings degraded proteins into blood circulation
  5. brain chapter – cerebrospinal fluid is absorbed into venous sinus

The news item:  Recently the following report appeared online:

https://www.nbc12.com/prnewswire/2023/03/07/abbott-receives-fda-clearance-first-commercially-available-lab-based-blood-test-help-evaluate-concussion/?outputType=amp

The article states that a new blood test is available for patients who are suspected to have suffered concussion because of an impact injury, and that this test may help to find the patients who might need a CT scan for further evaluation. The test works by analyzing two biomarkers.

So, Why Do I Care??  Concussion happens frequently with over 2 million concussions occurring yearly in the USA. Whether it is from a car accident, from a fall, or from a collision at a sporting event, the consequence is impaired brain function. That comes with a price tag of over $40 billion per year medical cost and lost income in the USA.

Plain English, Please!!! First, let’s talk about what concussion is. An injury to the brain from a physical impact is called concussion. The symptoms can be a brief loss of consciousness followed by headache, memory impairment, loss of orientation, loss of cognitive functions, depression. The most dangerous aspects of concussion are the long-lasting effects.

Second, let’s talk about how the brain is injured by mechanical forces. While it is true that the meninges, the membrane-like covering of the brain, provide a moderate level of protection against sudden

How could the lead contamination in blueberries harm us?

TeachableMedicalNews article 04052023

Teachable moment in classrooms:

  1. nervous system chapter – axons and synapses as structures of neurons
  2. nervous system chapter – transmission of a nerve impulse using a chemical synapse
  3. nervous system chapter – formation of myelin sheet along axons
  4. cellular basis of life chapter – zinc-finger proteins in gene regulation
  5. endocrine system chapter – protein kinases are important for cellular actions

The news item:  Recently this report appeared:

Freeze-dried blueberries recalled due to potential lead contamination

The voluntary recall covers packages of organic blueberries sold under the brand name Natierra, with expiration dates of December 2022 and January 2025.

The article states that long term exposure to lead in children may affect the central nervous system causing learning disabilities, developmental defects, and in adults causing damage to the nervous system and internal organs.

So, Why Do I Care??  Long term exposure to lead harms about 500,000 children in the USA alone. The consequences last for decades, and can not be undone. It is good to understand why the metal lead poses such severe consequences.

Plain English, Please!!!  First, let’s talk about how lead (Pb in the periodic table) gets into our bodies. Typically, lead comes into our bodies through eating lead-contaminated food or drinking water, because lead compounds are soluble in water. The heavy metal lead has similar chemical properties to the biologically important metal calcium. Because of that similarity the small intestine readily absorbs lead just as it absorbs calcium.

Second, let’s talk about what biological processes are harmed by lead. Once absorbed into the bloodstream the lead ions take the place of the calcium and zinc ions. Here are a few examples. A. Lead

How does the antiviral drug Paxlovid fight the Sars-CoV-2 corona virus

TeachableMedicalNews article 03172023

Teachable moment in classrooms:

  1. chemical basis of life chapter – proteins can be cut by hydrolysis using proteases
  2. cellular basis of life chapter – transmembrane proteins can serve as receptors
  3. cellular basis of life chapter – RNA is translated into proteins on ribosomes
  4. microbiology – lifecycle of RNA viruses

The news item:  Recently this news appeared online

 

https://www.washingtontimes.com/news/2022/jul/23/bidens-health-improving-after-second-day-paxlovid-/

The article states that President Biden received Paxlovid treatment after his diagnosis of COVID infection. The article doesn’t explain anything about Paxlovid itself.

So, Why Do I Care??  At the time of writing this blog post the number of COVID infections numbered 765 million with 6.78 million deaths worldwide.  There is a small number of people (less than 1% of infections) who suffer serious health consequences, and even die because of this virus. Early intervention, such as the use of oral antiviral drugs is a promising way to prevent the development of serious illness.  The way Paxlovid acts may provide a template on how antiviral drugs may treat other virus-borne illnesses.

Plain English, Please!!!

First, let’s talk about why corona viruses can cause so much damage to our bodies. Corona viruses is an organism that can not multiply without a cell hosting it. In order to multiply, corona viruses hijack the RNA making and the protein-making capacities of the host cell.  Viral hijacking means that the host cell can not make RNA and proteins for the host’s own use, and the host cell dies as a consequence of the infection. Therefore, the main direct damage from corona virus infection is the killing of our own cells.

Second, let’s talk about how Sars-CoV-2 hijacks cells. Once a corona virus enters a living host cell, the long RNA of the virus snatches the ribosomes of the host cell, and is transcribed into a long, viral

Can we really make human proteins for medical treatments in lettuce plants?

TeachableMedicalNews article TMN12112022

Teachable moment in classrooms:

  1. cellular basis of life chapter – concept of one gene, one protein
  2. cellular basis of life chapter – protein synthesis on ribosomes
  3. skeletal system chapter – actions of osteoblasts and osteoclasts in living bones
  4. skeletal system chapter – osteons and trabeculae provide structural strength to bones
  5. endocrine system chapter – actions of PTH made by parathyroid gland

The news item:  Recently the following report appeared in cyberspace:

Humans on Mars may feast on gene-edited salad to stop bones breaking

Genetically modified salad could be crucial to keeping the bones of humans on Mars healthy.

The article states that a human gene was added to lettuce, and that the human protein, parathyroid hormone (PTH), will fight the osteoporosis that astronauts develop in space. Astronauts lose 1.5% of bone mass from weight-bearing bones, and the expectation is the PTH made by the lettuce will prevent bone loss on a trip to Mars that may last for over a year.

So, Why Do I Care??  Osteoporosis, as stated in the article, weakens bones, but not only in astronauts. Over 10 million people in the US alone has osteoporosis that makes fractures more likely. PTH is currently administered through injections, so, if we could demonstrate that eating PTH-enriched lettuce, then treatment of osteoporosis may become easier.

Plain English, Please!!! First, let’s summarize what osteoporosis is, and how astronauts taking PTH can fight it (this was explored in detail in TMN article 11272022). The microscopic structural reinforcement structures (osteons and trabeculae) in our bones erode, gets degraded in the disorder called osteoporosis.  Imagine a tall building or a bridge; columns or pillars are the elements of structural reinforcement in them. A corrosion of those pillars and columns weakens the building, and may cause their collapse. Astronauts in space don’t have the force of gravity to stimulate bone building, so bone loss, osteoporosis develops. PTH, when administered in short bursts, stimulates osteoblasts, and increases bone formation, and that could prevent bone loss in astronauts. Although astronauts could inject themselves with PTH, however, for long spaceflights they would have to carry lots of PTH doses. It would be better if they could produce PTH during the flight itself.  Making human PTH inside a food item would create a continuous supply of PTH.

Second, let’s talk about what is entailed with the genetic engineering of the lettuce. In general, we do genetic engineering when we are adding a new gene or inactivating an existing gene in an organism.

Can astronauts prevent bone loss by eating genetically engineered lettuce?

TeachableMedicalNews article 11272022

Teachable moment in classrooms:

  1. cellular basis of life chapter – concept of one gene, one protein
  2. skeletal system chapter – actions of osteoblasts and osteoclasts in living bones
  3. skeletal system chapter – osteons and trabeculae provide structural strength to bones
  4. endocrine system chapter – actions of PTH made by parathyroid gland
  5. digestive system chapter – ingested proteins are degraded by several digestive enzymes

 

The news item:  Recently the following report appeared:

Humans on Mars may feast on gene-edited salad to stop bones breaking

Genetically modified salad could be crucial to keeping the bones of humans on Mars healthy.

 

 

The article states that a human gene was added to lettuce, and that the human protein, parathyroid hormone (PTH), will fight the osteoporosis that astronauts develop in space. Astronauts lose 1.5% of bone mass from weight-bearing bones, and the expectation is the PTH made by the lettuce will prevent bone loss on a trip to Mars that may last for over a year.

So, Why Do I Care??  Osteoporosis, as stated in the article, weakens bones, but not only in astronauts. Over 10 million people in the US alone has osteoporosis that makes fractures more likely. PTH is currently administered through injections, so, if we could demonstrate that eating PTH-enriched lettuce, then treatment of osteoporosis may become easier.

Plain English, Please!!! First, let’s talk about what osteoporosis is. In our bones we need structural reinforcement to keep bones from fracturing when we walk, run, jump or fall. The microscopic building units called osteons and trabeculae are the structural elements that provide such reinforcement.  Imagine a tall building or a bridge; columns or pillars are the elements of structural reinforcement in them. A corrosion of those pillars and columns weakens the building, and may cause their collapse. In our bones the cells called osteoclasts erode the osteons and trabeculae, but the cells called osteoblasts repair, and, thus, reverse that erosion. In old age, or with hormonal changes, such as menopause, the osteoblasts slow down, and the osteoclasts erode osteons and trabeculae. Osteoporosis is the condition where the erosion weakens the entire bone, and fractures are more likely.

Second, let’s talk about why weightlessness leads to osteoporosis. When we move around in regular gravity, our bone cells are under pressure caused by the weight of the body. That pressure makes

Can we treat breast cancer by targeting a mutation in the cancer cells?

TeachableMedicalNews article 11122022

Teachable moment in classrooms:

  1. cellular basis of life chapter – concept of one gene, one protein
  2. cellular basis of life chapter – concept of gene mutation leading to protein malfunction
  3. cellular basis of life chapter – cell division is regulated
  4. female reproductive system chapter – anatomical location of mammary ducts

The news item: Recently the following reporting appeared online:

No Title

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The article states that the newly approved breast cancer treatment, Piqray, is for the HR+, HER2 – advanced breast cancer cases. The article also states that this new drug is targeting PIK3CA mutations.

So, Why Do I Care??  There are over 280,000 new breast cancer diagnoses each year in the USA. Deaths from breast cancer is estimated to be over 43,000 each year in the USA. Every new treatment regimen reduces the number of deaths, or increases survival time. In addition, a drug that targets mutated cancer cells also lowers the side effects, because only the mutated cells are attacked.

Plain English, Please!!! First, let’s talk about what breast cancer is. In all cancers the normal cells of a particular portion of the body transformed, so they suddenly gain the ability to divide without control. In the case of breast cancer the epithelial cells of the inner lining of mammary ducts transform into cancer cells. The mammary duct cells divide in controlled fashion to fill gaps where cell died in the duct.

Second, let’s talk about why cancer cells divide without control. Our cells normally divide by going through the steps of interphase, prophase, metaphase, anaphase, telophase, the process that divides

Why bacterial contamination of baby formula is life threatening for infants?

TeachableMedicalNews article 09292022

Teachable moment in classrooms:

  1. cellular basis of life chapter – linker proteins in the plasma membrane form tight junctions
  2. tissue chapter – tight junctions of epithelial cells prevent movement of pathogens between the cells
  3. immune system chapter – reliance of white blood cells for immune functions
  4. brain chapter – the brain is covered by meninges inside the cranial cavity
  5. microbiology – the pathogen bacterium Chronobacter sakazakii

The news item:  Recently a news report appeared about contaminated baby formula:

FDA says maker of powdered infant formula didn’t take steps to prevent products from becoming contaminated | CNN

The US Food and Drug Administration (FDA) has determined the company running a plant at the center of a baby formula recall didn’t take steps to prevent products from becoming contaminated during manufacturing, according to a preliminary report filed this month.

The article states that Chronobacter sakazakii bacterium caused death of two infants who used baby formula contaminated with the bacterium.

So, Why Do I Care??  While adults can easily defeat a bacterial infection, the bodies of infants are very vulnerable to such infection.  Because the immune system of infants is naturally weak, powdered infant formulas must be free of bacterial contamination. If bacteria are in the infant formula, then the infants are exposed to life threatening infection.  The number of infections is about 15 infants each year, but one-fourth of the infants die from the infection.

Plain English, Please!!!  First, let’s talk about what a Chronobacterium is. This is a very common bacterium in environment, present on many surfaces and in food items. The well-trained immune system of adults can fight off this bacterium, but the not-yet-fully developed immune system of infants has a

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