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Archive for the ‘genetics’ category: Page 87

Sep 26, 2023

More research is examining how we carry the ‘genetic legacy’ of extinct human species

Posted by in categories: biotech/medical, genetics

And the answers point to a profound reality: We have far more in common with our extinct cousins than we ever thought.

Neanderthals within us

Until recently, the genetic legacy from ancient humans was invisible because scientists were limited to what they could glean from the shape and size of bones. But there has been a steady stream of discoveries from ancient DNA, an area of study pioneered by Nobel Prize winner Svante Paabo who first pieced together a Neanderthal genome.

Sep 26, 2023

Using AI to find disease-causing genes

Posted by in categories: biotech/medical, genetics, robotics/AI

A new artificial intelligence program is helping scientists speedily sift through thousands of data sets and millions of papers to home in on genes that underly disease, drastically condensing a search process that once took months.

Using computer software, scientists can scan entire genomes, or an organism’s full set of DNA, of mice that model human diseases. The goal: to identify genetic mutations that cause those diseases and open new doors for scientists to better harness genetics to develop disease treatments, said Gary Peltz, MD, PhD, professor of anesthesiology, perioperative and pain medicine at Stanford Medicine.

But to do that, scientists must search through massive sets of genomic data, which yields more false positives than researchers care to admit. It’s also time intensive. Peltz wanted to make the genetic discovery process easier, faster and more accurate.

Sep 26, 2023

Researchers crack genetic code of rare kidney cancer

Posted by in categories: biotech/medical, genetics

The genetic code of a rare form of kidney cancer, called reninoma, has been studied for the first time. In a paper, published in Nature Communications, researchers at the Wellcome Sanger Institute, Great Ormond Street Hospital and The Royal Free Hospital also revealed a new drug target that could serve as an alternative treatment if surgery is not recommended.

There are around 100 cases of reninoma reported to date worldwide, and it is among the rarest of tumors in humans. Although it can usually be cured with surgery, it can cause severe hypertension or it can spread and develop into metastases. There are no existing medical treatments for reninoma and management involves surgery alone. Until now, it had been unknown what genetic error causes reninoma.

In the new study, a collaboration between the Wellcome Sanger Institute and Great Ormond Street Hospital and The Royal Free Hospital, researchers found that there is a specific error in the genetic code of a known cancer gene, NOTCH1, that is behind the development of this rare cancer.

Sep 26, 2023

Antiviral drug molnupiravir linked to SARS-CoV-2 mutations

Posted by in categories: biotech/medical, genetics

Researchers at the Francis Crick Institute, the University of Cambridge, Imperial College London, the University of Liverpool, the University of Cape Town and UKHSA have uncovered a link between an antiviral drug for COVID-19 infections called molnupiravir and a pattern of mutations in the SARS-CoV-2 virus.

Molnupiravir works by inducing mutations in the ’s genetic information, or genome, during replication. Many of these mutations will damage or kill the virus, reducing viral load in the body. It was one of the first antivirals available on the market during the COVID-19 pandemic and was widely adopted by many countries.

In research published in Nature, the scientists used global sequencing databases to map mutations in the SARS-CoV-2 virus over time. They analyzed a family tree of 15 million SARS-CoV-2 sequences so that at each point in each virus’s evolutionary history they could see which mutations had occurred.

Sep 25, 2023

Gene Editing Tool Improves Immunotherapy

Posted by in categories: bioengineering, biotech/medical, chemistry, genetics

There are many therapies that target cancer. The most well-known is chemotherapy, which is a toxic chemical that is directed at a tumor to kill the cells. This is currently the standard of care for most types of cancer. However, as science advances, less toxic and more direct therapies are discovered. The most recently discovered therapy is known as ‘immunotherapy’, which redirects the immune system to kill the tumor. There are many successful treatments with immunotherapy among different types of cancers, including melanoma and lung cancer. Unfortunately, immunotherapy is limited in many solid tumors due to the immunosuppressive tumor microenvironment (TME). The TME is a pro-tumor environment that the cancer has made by releasing specific proteins that allow it to progress. In this environment the tumor can remain undetected from the immune system and progress throughout the body. Different immune cells in the TME become polarized and alter their functions to help the tumor proliferate and grow. It is now becoming more common to pair therapies together including immunotherapy with chemotherapy. Scientists are still trying to find ways to improve treatment and completely eradicate the tumor.

In San Francisco, California, a group of scientists, led by Dr. Alex Marson, are working to modify gene expression to reprogram or change immune cells in the TME to attack cancer. There has been some success, but this immunotherapy does not help treat all patients. In addition, the screening process to determine genetic changes to determine which cells would result in the greatest treatment efficacy is a long, arduous process. A group at the Gladstone Institutes has worked with Marson at University of California San Francisco (UCSF) to develop a strategy that helps pair different genetic combinations in a faster amount of time to determine the most beneficial treatment outcomes. This screening technique is called Pooled Knockin Screening (ModPoKI). ModPoKI finds the best genetic modifications to express in immune cells that will have prolonged anti-tumor efficacy.

The study that demonstrated ModPoKI was published recently in Cell, which demonstrates our ability to now understand how to combine genetic programs. ModPoKI combines genes into long lines of DNA to generate roughly 10,000 combinations to match with a genetically engineered immune cell known as a T cells are major immune cells that primarily target foreign antigens, like cancer cells, and kill them. Once the optimal gene modification is found, it is put into the engineered immune cells that are polarized to kill cancer. After further investigation, the combinations made by ModPoKI resulted in the most polarized anti-tumor T cells.

Sep 25, 2023

Another class of cancer drugs may contribute to curing HIV

Posted by in categories: biotech/medical, genetics

Two drugs from a class new to HIV medicine called BH3 mimetics were unveiled at July’s 12th International AIDS Society Conference on HIV Science (IAS 2023) in Brisbane. They may contribute to a cure for HIV by killing off long-lived cells that contain HIV genes in their DNA. Notably, venetoclax (Venclexta) and obatoclax only killed off cells containing intact DNA, capable of giving rise to new viruses, and did not delete cells containing defective, harmless DNA.

A number of drugs and treatments from the anti-cancer arsenal have been investigated as HIV cure research such as HDAC inhibitors, PD-1 inhibitors and therapeutic vaccines. (And, of course, the six successful cures so far have used the radical cancer therapy of a stem cell (bone marrow) transplant.)

This is not coincidental: cancer and AIDS are both the end result of mutations in the DNA of some of our cells. In the case of cancer they arise in the host DNA and in HIV infection they are introduced by a virus, but both are the result of ‘rogue genes’ (some other viruses, such as HPV, directly cause cancers).

Sep 24, 2023

Scientists Successfully Genetically Modify Individual Cells in Living Animals

Posted by in categories: bioengineering, biotech/medical, genetics

One proven method for tracking down the genetic origins of diseases is to knock out a single gene in animals and study the consequences this has for the organism. The problem is that for many diseases, the pathology is determined by multiple genes, complicating the task for scientists trying to pinpoint the contribution of any single gene to the condition. To do this, they would have to perform many animal experiments – one for each desired gene modification.

Researchers led by Randall Platt, Professor of Biological Engineering at the Department of Biosystems Science and Engineering at ETH Zurich in Basel, have now developed a method that will greatly simplify and speed up research with laboratory animals: using the CRISPR-Cas gene scissors, they simultaneously make several dozen gene changes in the cells of a single animal, much like a mosaic.

While no more than one gene is altered in each cell, the various cells within an organ are altered in different ways. Individual cells can then be precisely analyzed. This enables researchers to study the ramifications of many different gene changes in a single experiment.

Sep 24, 2023

Molecule reduces inflammation in Alzheimer’s models

Posted by in categories: biotech/medical, genetics, life extension, neuroscience

Though drug developers have achieved some progress in treating Alzheimer’s disease with medicines that reduce amyloid-beta protein, other problems of the disease, including inflammation, continue unchecked. In a new study, scientists at The Picower Institute for Learning and Memory at MIT describe a candidate drug that in human cell cultures and Alzheimer’s mouse models reduced inflammation and improved memory.

The target of the new “A11” molecule is a genetic transcription factor called PU.1. Prior research has shown that amid Alzheimer’s disease, PU.1 becomes an overzealous director of inflammatory gene expression in the brain’s microglia immune cells. A11 suppresses this problematic PU.1 activity, the new research shows, by recruiting other proteins that repress the inflammatory genes PU.1 works to express. But because A11 concentrates mostly in the brain and does not reduce PU.1 levels, it does not appear to disrupt PU.1’s other job, which is to ensure the production of a wide variety of blood cells.

“Inflammation is a major component of Alzheimer’s disease pathology that has been especially hard to treat,” says study senior author Li-Huei Tsai, Picower Professor of Neuroscience at MIT and director of The Picower Institute and MIT’s Aging Brain Initiative. “This preclinical study demonstrates that A11 reduces inflammation in human microglia-like cells, as well as in multiple mouse models of Alzheimer’s disease, and significantly improves cognition in the mice. We believe A11 therefore merits further development and testing.”

Sep 24, 2023

UM Medicine Faculty-Scientists and Clinicians Perform Second Historic Transplant of Pig Heart into Patient with End-Stage Cardiovascular Disease

Posted by in categories: biotech/medical, genetics

A 58-year-old patient with terminal heart disease became the second patient in the world to receive a historic transplant of a genetically-modified pig heart on September 20. He is recovering and communicating with his loved ones. This is only the second time in the world that a genetically modified pig heart has been transplanted into a living patient. Both historic surgeries were performed by University of Maryland School of Medicine (UMSOM) faculty at the University of Maryland Medical Center (UMMC).

The first historic surgery, performed in January, 2022, was conducted on David Bennett by University of Maryland Medicine surgeons (comprising UMSOM and UMMC), who are recognized as the… More.


After world’s first successful transplant in 2022, also performed at the University of Maryland Medical Center (UMMC), this groundbreaking transplant team per.

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Sep 24, 2023

Albumin, CRP, and Creatinine: Better Markers Of Longevity Than Lipoproteins And Glycemic Status

Posted by in categories: biotech/medical, genetics, life extension

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