Depressed or inflamed? Inflammation attacks brain’s reward center
Inflammation is a good thing, it helps the body fight disease, and without it we wouldn’t survive. Unfortunately, when inflammation isn’t kept under control it can wreak havoc on the body. From potentially causing alzheimer’s to arthritis it seems that unchecked inflammation can cause all sorts of issues. In fact, a new study adds to the list of issues out of control inflammation causes in the body.
How to unlock inaccessible genes
An international team of biologists has discovered how specialized enzymes remodel the extremely condensed genetic material in the nucleus of cells in order to control which genes can be used. It was known that the DNA in cells is wrapped around proteins in structures called nucleosomes that resemble beads on a string, which allow the genetic material to be folded and compacted into a structure called chromatin.
It’s complicated: Benefits and toxicity of anti-prion antibodies in the brain
Immunotherapy to ameliorate neurodegeneration by targeting brain protein aggregates with antibodies is an area of intense investigation. A new study examines seemingly contradictory earlier results of targeting the prion protein and proposes a cautionary way forward to further test related therapeutic approaches.
The music of the mind: throwing light on human consciousness
UNSW Australia scientists have shown that complex human brain activity is governed by the same simple universal rule of nature that can explain other phenomena such as the beautiful sound of a finely crafted violin or the spots on a leopard. The UNSW team has identified a link between the distinctive patterns of brain function that occur at rest and the physical structure of people’s brains.
Scientists shed new light on workings of genetic regulation
A team of scientists has uncovered greater intricacy in protein signaling than was previously understood, shedding new light on the nature of genetic production.
60 genetic disorders affect skin and nervous system
One of the most common genetic disorders is a condition called neurofibromatosis, which causes brown spots on the skin and benign tumors on the brain, spinal cord and other parts of the nervous system. Neurofibromatosis is one of at least 60 genetic diseases called neurocutaneous disorders that involve the skin, central nervous system, and/or peripheral nervous system.
When the music stops: Intensive instrument playing can lead to movement disorders
A musician takes up his/her violin and starts to play, but rather than gripping the strings, the fingers seize up–and this happens every time he/she takes up the instrument. Such a movement disorder–the so-called focal dystonia— is a dramatic disease for those affected, which has thus far barely been studied.
Neurons in your gut help the immune system keep inflammation in check
The immune system exercises constant vigilance to protect the body from external threats–including what we eat and drink. A careful balancing act plays out as digested food travels through the intestine. Immune cells must remain alert to protect against harmful pathogens like Salmonella, but their activity also needs to be tempered since an overreaction can lead to too much inflammation and permanent tissue damage.
Thwarting abnormal neural development with a new mutation
*Cue music* You can tell by the way I walk, I’m a motor protein, no time to talk…
Researchers at the RIKEN Brain Science Institute in Japan have discovered how to reverse the abnormal axonal development characteristic of CFEOM3, a congenital disease that affects the muscles that control eye movements. The work shows how creating a specific mutation rescued abnormal axonal growth in the developing mouse brain.
Pay attention! Attention neuron type identified
Researchers have identified for the first time a cell type in the brain of mice that is integral to attention. Moreover, by manipulating the activity of this cell type, the scientists were able to enhance attention in mice. The results add to the understanding of how the brain’s frontal lobes work and control behaviour.
Feeling sick? It’s evolution’s way of telling you to stay home
When you have a fever, your nose is stuffed and your headache is spreading to your toes, your body is telling you to stay home in bed. Feeling sick is an evolutionary adaptation according to a hypothesis put forward by Prof. Guy Shakhar of the Weizmann Institute’s Immunology Department and Dr. Keren Shakhar of the Psychology Department of the College of Management Academic Studies.
Stem cells regulate their own proliferation and their microenvironment
A study by researchers at the Centro Nacional de Investigaciones Cardiovasculares Carlos III (CNIC) has identified a new mechanism through which hematopoietic stem cells (HSCs) control both their own proliferation and the characteristics of the niche that houses them. This control is exercised by the protein E-Selectin Ligand-1 (ESL-1).
Are you multicellular? Thank a random mutation that created a new protein
Get it? Cell division, well long division anyway…
All it took was one mutation more than 600 million years ago. With that random act, a new protein function was born that helped our single-celled ancestor transition into an organized multicellular organism. That’s the scenario — done with some molecular time travel — that emerged from basic research in the lab of University of Oregon biochemist Ken Prehoda.
Schizophrenia linked to loss of cells in the brain’s memory center
Art by the one and only Lora Zombie
Scientists at Columbia University’s Mortimer B. Zuckerman Mind Brain Behavior Institute, Columbia University Medical Center (CUMC), and the Université Paris Descartes have found that deficits in social memory–a crucial yet poorly understood feature of psychiatric disorders such as schizophrenia–may be due to a decrease in the number of a particular class of brain cells, called inhibitory neurons, in a little-explored region within the brain’s memory center.
If our brain is a computer, do we really have free will?
The background to this new set of experiments lies in the debate regarding conscious will and determinism in human decision-making, which has attracted researchers, psychologists, philosophers and the general public, and which has been ongoing since at least the 1980s. Back then, the American researcher Benjamin Libet studied the nature of cerebral processes of study participants during conscious decision-making.
New genes born by accident lead to evolutionary innovation
Novel genes are continuously emerging during evolution, but what drives this process? A new study has found that the fortuitous appearance of certain combinations of elements in the genome can lead to the generation of new genes.
Gene-editing technique stops progression of Duchenne muscular dystrophy
Using a new gene-editing technique, a team of scientists from UT Southwestern Medical Center stopped progression of Duchenne muscular dystrophy (DMD) in young mice. If efficiently and safely scaled up in DMD patients, this technique could lead to one of the first successful genome editing-based treatments for this fatal disease, researchers said.
A faster way to evaluate synthetic metabolic pathways
A central challenge in the field of metabolic engineering is the efficient identification of a metabolic pathway genotype that maximizes specific productivity over a robust range of process conditions. A review from researchers at Michigan State University in East Lansing, MI covers the challenges of optimizing specific productivity of metabolic pathways in cells and new advances in pathway creation and screening.
3-D footage of nematode brains links neurons with motion and behavior
Animation from glass brain. Yea it isn’t what this post is about exactly, but it is still cool
Princeton University researchers have captured among the first recordings of neural activity in nearly the entire brain of a free-moving animal. The three-dimensional recordings could provide scientists with a better understanding of how neurons coordinate action and perception in animals. The researchers reported a technique that allowed them to record 3-D footage of neural activity in the nematode Caenorhabditis elegans, a worm species 1 millimeter long with a nervous system containing a mere 302 neurons.
The development of the cerebellar circuitry is driven by epigenetic “music”
From before birth through childhood, connections form between neurons in the brain, ultimately making us who we are. So far, scientists have gained a relatively good understanding of how neural circuits become established, but they know less about the genetic control at play during this crucial developmental process. Now, a team of researchers has described for the first time the so-called epigenetic mechanisms underlying the development of the cerebellum, the portion of the brain that allows us to learn and execute complex movements.
Have a sweet tooth? It may be your livers fault
Psh, what did the liver ever do for you?
We all love our sugar, especially during the holidays. Cookies, cake, and candy are simply irresistible. While sugar cravings are common, the physiological mechanisms that trigger our “sweet tooth” are not well defined.
Lack of serotonin alters development and function in the brain
Come on get happy!
Researchers at Case Western Reserve University School of Medicine have created the first complete model to describe the role that serotonin plays in brain development and structure. Serotonin, also called 5-hydroxytryptamine [5-HT], is an important neuromodulator of brain development and the structure and function of neuronal (nerve cell) circuits.
Intelligence, it’s in your genes… and we can change that.
Ever feel like everyone around you has their brain running much faster than your own? Well, the good news is that it may not be you, it may be your genes. The other good news, we might be able to change that. Scientists from Imperial College London have identified for the first time two clusters of genes linked to human intelligence. Called M1 and M3, these so-called gene networks appear to influence cognitive function – which includes memory, attention, processing speed and reasoning.
Scientists manipulate consciousness in rats
Scientists showed that they could alter brain activity of rats and either wake them up or put them in an unconscious state by changing the firing rates of neurons in the central thalamus, a region known to regulate arousal. The study was partially funded by the National Institutes of Health.
Emotion processing in the brain changes with tinnitus severity
Tinnitus, otherwise known as ringing in the ears, affects nearly one-third of adults over age 65. The condition can develop as part of age-related hearing loss or from a traumatic injury. In either case, the resulting persistent noise causes varying amounts of disruption to everyday life. While some tinnitus patients adapt to the condition, many others are forced to limit daily activities as a direct result of their symptoms. A new study reveals that people who are less bothered by their tinnitus use different brain regions when processing emotional information.
The world’s smallest terrorist: Virus hijacks protein machine and then kills the host
Bacteriophages are viruses that infect and kill bacteria. The name originates from the Greek ‘phagos’ which means ‘to devour’. Bacteriophages were discovered 100 years ago because of their ability to replicate in a pathogenic bacterium, kill it and thereby cure the patient. As a small spaceship landing on the moon, the microscopic particles land on the surface of the bacteria where they inject their deadly genetic material.
Discovery puts designer dopamine neurons within reach
For decades, the elusive holy grail in Parkinson’s disease research has been finding a way to repair faulty dopamine neurons and put them back into patients, where they will start producing dopamine again. Researchers have used fetal material, which is difficult to obtain and of variable quality. Embryonic stem cells represented a tremendous innovation, but making dopamine neurons from stem cells is a long process with a low yield.
Healthy or sick? Tiny cell bubbles may hold the answer
Rutgers scientists have uncovered biological pathways in the roundworm that provide insight into how tiny bubbles released by cells can have beneficial health effects, like promoting tissue repair, or may play a diabolical role and carry disease signals for cancer or neurodegenerative diseases like Alzheimer’s.
Seeing viruses in a new light
Want to make a virus? It’s easy: combine one molecule of genomic nucleic acid, either DNA or RNA, and a handful of proteins, shake, and in a fraction of a second you’ll have a fully-formed virus. While that may sound like the worst infomercial ever, in many cases making a virus really is that simple. Viruses such as influenza spread so effectively, and as a result can be so deadly to their hosts, because of their ability to spontaneously self-assemble in large numbers.
Certain herpes viruses can infect human neurons
For years, researchers have noted a tantalizing link between some neurologic conditions and certain species of the herpes virus. In patients with Alzheimer’s disease, multiple sclerosis, and cerebellar ataxia, among other neuropathies, the cerebrospinal fluid teems with Epstein-Barr virus (EBV). Yet, the nature of that link has remained unclear, as it has been assumed that EBV, as well as other viruses in the same sub-family, called gammaherpesviruses, cannot infect neurons.
No two faces are the same
For the very first time, researchers have been able to show that the causes of congenital face blindness can be traced back to an early stage in the perceptual process. These findings are crucial, not just for our understanding of face recognition, but also because they allow us to understand the processes behind the recognition of any visually presented object.
How is a developing brain assembled?
A new, open-source software that can help track the embryonic development and movement of neuronal cells throughout the body of the worm, is now available to scientists.
Antidepressant medication protects against compounds linked to dementia
In addition to treating depression, a commonly used antidepressant medication also protects against compounds that can cause memory loss and dementia, a Loyola University Medical Center study has found. The study found that blood levels of two neurotoxic compounds dropped significantly in depressed patients after they were treated with the antidepressant escitalopram (Lexapro).
Novel insights into genetic cause of autoimmune diseases
A collaboration between researchers at the Babraham Institute and the University of Manchester has mapped the physical connections occurring in the genome to shed light on the parts of the genome involved in autoimmune diseases. Using a new technique, called Capture Hi-C, the team revealed novel insights into how changes in the genetic sequence have a biological effect and increase the risk of disease.
The silence of the genes, an epigenetic tale
Research led by Dr. Keiji Tanimoto from the University of Tsukuba, Japan, has brought us closer to understanding the mechanisms underlying the phenomenon of genomic imprinting. In this intriguing event, one copy of a gene is ‘turned off’, or silenced, depending on whether it was derived from the mother or the father.
Synapse discovery could lead to new treatments for Alzheimer’s disease
A team of researchers led by UNSW Australia scientists has discovered how connections between brain cells are destroyed in the early stages of Alzheimer’s disease – work that opens up a new avenue for research on possible treatments for the degenerative brain condition.
Stem cell study paves the way for patient therapies
Stem cells that have been specifically developed for use as clinical therapies are fit for use in patients, an independent study of their genetic make-up suggests. The research – which focused on human embryonic stem cells – paves the way for clinical trials of cell therapies to treat conditions such as Parkinson’s disease, age-related degeneration of the eyes and spinal cord injury.
Closing the loop on an HIV escape mechanism
Nearly 37 million people worldwide are living with HIV. When the virus destroys so many immune cells that the body can’t fight off infection, AIDS will develop. The disease took the lives of more than a million people last year.
Dopamine measurements reveal insights into how we learn
Virginia Tech Carilion Research Institute scientists have reported measurements of dopamine release with unprecedented temporal precision in the brains of people with Parkinson’s disease. The measurements, collected during brain surgery as the conscious patients played an investment game, demonstrate how rapid dopamine release encodes information crucial for human choice.
The mysterious fungus that has major health consequences
Researchers at the University of Toronto examined fungi in the mucus of patients with cystic fibrosis and discovered how one particularly cunning fungal species has evolved to defend itself against neighbouring bacteria. A regular resident of our microbiome – and especially ubiquitous in the lungs of cystic fibrosis patients -the Candida albicans fungus is an “opportunistic pathogen.”
Inflammation linked to weakened reward circuits in depression
About one third of people with depression have high levels of inflammation markers in their blood. New research indicates that persistent inflammation affects the brain in ways that are connected with stubborn symptoms of depression, such as anhedonia, the inability to experience pleasure.
Yin and yang of serotonin neurons in mood regulation
Low levels of serotonin in the brain are known to play a role in depression and anxiety, and it is customary to treat these disorders with medications that increase the amount of this neurotransmitter. However, a new study carried out by researchers suggests that this approach may be too simple. It appears that neighboring serotonin-producing brainstem regions exert different and sometimes opposing effects on behavior.
Master switch for brain development
Scientists at the Institute of Molecular Biology (IMB) in Mainz have unraveled a complex regulatory mechanism that explains how a single gene can drive the formation of brain cells. The research is an important step towards a better understanding of how the brain develops. It also harbors potential for regenerative medicine.
The rise of do-it-yourself biology
The Wilson Center’s Synthetic Biology Project has released a short documentary on the growth of the do-it-yourself biology (DIYbio) movement as seen through a community DIYbio lab in Baltimore, Maryland.
New vaccine could prevent high cholesterol
Time to pug out…
Image credit goes to: (Once again) the talented and creative Lora Zombie
A new cholesterol-lowering vaccine leads to reductions in ‘bad’ LDL cholesterol in mice and macaques, according to research. The authors of the study, from the University of New Mexico and the National Institutes of health in the United States, say the vaccine has the potential to be a more powerful treatment than statins alone.
One energy drink may increase heart disease risk in young adults
New research shows that drinking one 16-ounce energy drink can increase blood pressure and stress hormone responses significantly. This raises the concern that these response changes could increase the risk of cardiovascular events.
The first line of defense? Think Mucus
By licking a wound it heals faster — this is not simply popular belief, but scientifically proven. Our saliva consists of water and mucus, among other things, and the mucus plays an important role. It stimulates white blood cells to build a good defense against invaders, according to a group of researchers at Lund University in Sweden together with colleagues from Copenhagen and Odense in Denmark.
Brain’s immune system could be harnessed to fight Alzheimer’s
A new study suggests that the brain’s immune system could potentially be harnessed to help clear the amyloid plaques that are a hallmark of Alzheimer’s disease.
Lipid helps keep algae and brain fluid moving
The same lipid that helps algae swim toward the light also appears to enable one type of brain cell to keep cerebrospinal fluid moving, researchers report.
Predicting what side effects you’ll experience from a drug
Researchers at the University of California, San Diego have developed a model that could be used to predict a drug’s side effects on different patients. The proof of concept study is aimed at determining how different individuals will respond to a drug treatment and could help assess whether a drug is suitable for a particular patient based on measurements taken from the patient’s blood.
Lunatic Laboratories 