Muscle wasting reversed in patients with rheumatoid arthritis

Photo Credit: Roger Vaughan

Patients with rheumatoid arthritis increased their leg muscle volume when treated with an anti-rheumatic drug, offering new hope for improved muscle health.

Publishing in the prestigious journal, The Lancet Rheumatology, the team from Newcastle University and The Newcastle upon Tyne Hospitals NHS Foundation Trust describe how 15 patients were given Tofacitinib, a Janus kinase (JAK) inhibitor used to treat RA, as part of an experimental medicine study. After 6 months their leg muscles increased in size, particularly in the thigh.  

Sarcopenia is a progressive, age-related musculoskeletal disease characterized by the loss of muscle mass, strength, and physical performance, increasing the risk of falls, fractures, physical disability, and mortality. Currently there are no medicines approved to reverse this muscle-wasting disease. It is commonly seen in patients with rheumatoid arthritis where chronic inflammation contributes to the loss of muscle mass and strength.

Hotter does mean wetter

How rising temperatures will affect rainfall in Japan.
Illustration Credit: KyotoU / Takemi lab

Around the world, we are already witnessing the detrimental effects of climate change, which we know will only become more severe. Extreme weather events such as heavy rainfall, tropical cyclones, and heat waves are projected to intensify, and this will negatively impact both human society and natural ecosystems.

Assessing how climate change affects extreme weather is important not only from a scientific point of view, but also from a practical perspective. It is critical that we start adapting to climate change and mitigating the effects of potential disasters.

This situation has motivated a team of researchers at Kyoto University to investigate how climate change -- in particular, rising temperatures -- affects precipitation in Japan. The team has focused on heavy rainfall patterns and what kind of atmospheric conditions influence their characteristics.

The Many FACES of Lipid Research

Subcellular lipid distributions (magenta) in mitochondria (green) revealed using FACES and super-resolution structure illuminated microscopy.
Image Credit: William Moore

Lipids are fatty molecules that play critical roles in cell function, including membrane structure, energy storage and nutrient absorption. Most lipids are made in a cell organelle called the endoplasmic reticulum, but specific lipid types are shuttled around to different parts of the cell depending on their purpose. Each organelle serves a specific role in a cell and has its own unique mixture of lipids called a lipidome.

Scientists have long wanted to get a closer look at the movement of lipids around a cell, but because organelles are so close together – often only tens of nanometers apart – it’s tough to visualize with traditional light microscopy, which only has resolutions up to 250 nanometers.

Now researchers at the University of California San Diego have unveiled a new technology with the power to see cells in unprecedented detail. The tool, called fluorogen-activating coincidence encounter sensing (FACES), was developed in Associate Professor of Biochemistry & Molecular Biophysics Itay Budin’s lab. This work appears in Nature Chemical Biology.

Helping farmers, boosting biofuels

Doug Collins and Teal Potter, co-authors on the new paper, stand in a field of triticale. The cover crop was grown to study its viability as a biofuel source.
Photo Credit: Chad Kruger/WSU

New research has found cover crops that are viable in Washington’s normal “off season” don’t hurt the soil and can be sold as a biofuel source.

After harvest, farmland often sits fallow and unused until growers seed in the next crop. Soil can erode, weeds can take root, and farmers don’t make any money during that time. Cover crops can eliminate or reduce some of those issues, but many farmers have concerns about their effects on soil quality, a reduced growing window for their primary crop, and the inability to sell the cover crop.

In a paper recently published in the journal Biomass and Bioenergy, a team led by Washington State University scientists looked at four cover crops grown for multiple years in western and central Washington fields. Two showed promising results.

“Molecular bodyguard” helps infections persist

Joram Waititu and Kemal Avican working together in the Avican Lab at the Department of Molecular Biology, Umeå University.
Photo Credit: Gabrielle Beans

Researchers at Umeå University have identified a key molecular player that helps bacteria survive the hostile environment inside the body. Their study reveals how the protein RfaH acts as a protective shield for bacterial genes — and points to new strategies for fighting persistent infections.

“The human body is a very stressful place for bacteria,” says Kemal Avican research group leader at Department of Molecular Biology and Icelab at Umeå University and leader of the study. “During infection, the immune system attacks, nutrients are scarce, and microbes are exposed to bile salts, acids and heat. We looked at how RfaH helps bacteria deal with that stress by turning on the right survival genes at the right time.”

Persistent bacterial infections pose a major challenge in medicine: bacteria can linger in the body long after acute symptoms fade, evading immune defenses and surviving antibiotic treatment. In diseases like tuberculosis, this leads to relapse and makes treatment difficult.

Combination of pre- and probiotics offers superior anti-inflammatory benefits compared with omega-3 or prebiotic alone

Photo Credit: Cosmin Ursea

A new study, led by experts at the University of Nottingham, has found that combining certain types of dietary supplements is more effective than single prebiotics or omega-3 in supporting immune and metabolic health, which could lower the risk of conditions linked to chronic inflammation.

The findings of the study, which are published in the Journal of Translational Medicine, show that a synbiotic - a combination of naturally fermented kefir and a diverse prebiotic fiber mix - produces the most powerful anti-inflammatory effects among the three common dietary supplements tested.

The kefir and prebiotic mix were provided by Chuckling Goat Ltd. It contains a mx of naturally occurring probiotic bacteria and yeasts, which form during the traditional fermentation of goat’s milk with live kefir grains. These grains are living cultures that house dozens of beneficial microbial species.

Why women's brains face higher risk: scientists pinpoint X-chromosome gene behind MS and Alzheimer's

Image Credit: Scientific Frontline / AI generated

New research by UCLA Health has identified a sex-chromosome linked gene that drives inflammation in the female brain, offering insight into why women are disproportionately affected by conditions such as Alzheimer’s disease and multiple sclerosis as well as offering a potential target for intervention. 

The study published in the journal Science Translational Medicine, used a mouse model of multiple sclerosis to identify a gene on the X chromosome that drives inflammation in brain immune cells, known as microglia. Because females have two X chromosomes, as opposed to only one in males, they get a “double dose” of inflammation, which plays a major role in aging, Alzheimer’s disease and multiple sclerosis.  

When the gene, known as Kdm6a, and its associated protein were deactivated, the multiple sclerosis-like disease and neuropathology were both ameliorated with high significance in female mice.  

Locking carbon in trees and soils could ‘stabilize climate for centuries’ – but only if combined with underground storage

Photo Credit: Veronica Lorine

Research on a ‘portfolio approach’ to carbon removal enables firms to mix expensive tech-based solutions that inject carbon deep underground with lower-cost and currently more available nature-based options, such as forests and biochar. 

A team of researchers, led by Cambridge University, has now formulated a method to assess whether carbon removal portfolios can help limit global warming over centuries.

The approach also distinguishes between buying credits to offset risk versus claiming net-negative emissions.

The study paves the way for nature-based carbon removal projects – such as planting new forests or restoring existing ones – to become effective climate change solutions when balanced with a portfolio of other removal techniques, according to researchers.

They say the findings, published in the journal Joule, show how nature-based and technology-based carbon storage solutions can work together through the transition to net zero, challenging the notion that only permanent tech-based “geological storage” can effectively tackle climate change.

Did Lead Limit Brain and Language Development in Neanderthals and Other Extinct Hominids?

UC San Diego researchers have found high levels of lead in the teeth of both Neanderthals (left) and modern humans (right). However, a gene mutation may have protected modern human brains, allowing language to flourish.
Photo Credit: Kyle Dykes/UC San Diego Health Sciences

Ancient human relatives were exposed to lead up to two million years ago, according to a new study. However, a gene mutation may have protected modern human brains, allowing language to flourish.

What set the modern human brain apart from our now extinct relatives like Neanderthals? A new study by University of California San Diego School of Medicine and an international team of researchers reveals that ancient hominids — including early humans and great apes — were exposed to lead earlier than previously thought, up to two million years before modern humans began mining the metal. This exposure may have shaped the evolution of hominid brains, limiting language and social development in all but modern humans due to a protective genetic variant that only we carry. The study was published in Science Advances.

The researchers analyzed fossilized teeth from 51 hominids across Africa, Asia and Europe, including modern and archaic humans such as Neanderthals, ancient human ancestors like Australopithecus africanus, and extinct great apes such as Gigantopithecus blacki.

Researchers uncover possible new treatment to target a devastating childhood brain cancer

Professor Peter Lewis
Photo Credit: Courtesy of University of Wisconsin–Madison

Using fruit flies, University of Wisconsin–Madison researchers have developed a new model for investigating the genetic drivers of a rare but aggressive brain tumor in children. The work has already identified potential treatment targets for the deadly cancer that has previously had few therapeutic options.

“Right now, these tumors are incurable, and the standard of care hasn’t changed for 30 years,” says Peter Lewis, a professor in the Department of Biomolecular Chemistry.

The cancer is called pediatric diffuse midline glioma. As its name suggests, the malignancy arises along the midline of the brain or spinal cord and infiltrates surrounding tissue in a way that makes it impossible to remove with surgery. Instead, typical treatment revolves around radiation therapy, and that extends a patient’s life by just months or at most a few years.

Professor Peter Lewis: “What we found might extend well beyond these very rare childhood tumors into more common ones.”

The limited treatment options have driven researchers to more closely examine the genetic mutations that cause the cancer to develop in the first place, with an eye on finding ways to disrupt that process. 

In the case of diffuse midline glioma, previous research identified mutations in certain DNA-packaging proteins as a likely culprit.