October 7th 2024

EARA News Digest 2024 - Week 41


Welcome to your Monday morning update, from EARA, on the latest news in biomedical science, policy and openness on animal research. 

This week: Mapping the fly brainFewer mice using ultrasoundDiabetes cure & animal studiesSchizophrenia  breakthrough

Map of fruit fly brain gives major insights

The first map of the entire brain of a fruit fly has been published, promising to provide unprecedented knowledge into how the brain works and what goes wrong in different diseases.

The FlyWire Consortium, an international team led by Princeton University, New Jersey, USA, and including EARA members, the Freie Universität-Berlin, and Johannes Gutenberg-Universität Mainz, Germany, successfully documented more than 50 million connections between almost 140,000 neurons in the brain of the adult fruit fly (Drosophila melanogaster).

This makes it the largest such map (connectome) that has been created – similar projects in roundworms and larval fruit flies only mapped 302 and 3,000 neurons, respectively.

Speaking to BBC science correspondent Pallab Ghosh, Mala Murthy, at Princeton, said: “It will help researchers trying to better understand how a healthy brain works. In the future we hope that it will be possible to compare what happens when things go wrong in our brains.”

The feat was possible thanks to artifcial intelligence (AI), which analysed millions of images of the fruit fly brain and traced the different connections between neurons.

Reaching the final connectome, however, still required proofreading by a global cohort of researchers to correct any mistakes that AI made.

 

 

Reducing mice use with ultrasound 

A UK institute has used ultrasound to more accurately pinpoint pregnancy in mice, which could lead to a reduction in the numbers used for breeding in research.

The Biological Services Unit, of the Medical Research Council (MRC) Laboratory of Molecular Biology (LMB), introduced the ultrasound machines because it is important to detect the point of pregnancy during research – just one day’s difference to the 20-day gestation (pregnancy) period of mice can significantly alter the embryo.

Early-stage mouse embryos are used, for example, to study development and traditionally, pregnancy in mice has been determined through visual and physical checks, but this can be subjective and prone to error.

By using ultrasound scans, technicians can more accurately check for the key signs, as well as identify which mice are not actually pregnant, so they can be bred again – therefore helping to reduce the numbers used in breeding.

In addition, the team found that the ultrasound could be carried out simply by holding the mice down, without the need for anaesthesia, and took less than a minute. The mice also did not show any distress or changes in behaviour afterwards. 

 

 

Animal studies used in cure for diabetes

Research in China, using previous studies in animals, has cured a woman with type 1 diabetes by using stem cells.
 
Type 1 diabetes occurs when the immune system attacks cells in the pancreas that produce insulin, requiring lifelong insulin injection therapy.
 
Researchers from Peking University were able to take cells from three type 1 diabetes patients, turn them into stem cells and then reprogramme the stem cells to produce insulin.
 
After the transplantation of these insulin-producing cells to a woman’s abdomen, she began producing insulin after two and a half months and no longer needed injections.
 
This study, published in Cell, was preceded by successful safety tests in mice and macaque monkeys.
 
Described as a ‘world-first’ by Nature, the cured woman said: “I can eat sugar now.. I enjoy eating everything — especially hotpot.”
 
A similar study from Shanghai Changzheng Hospital, published in Cell Discovery, focused on type 2 diabetes.

Researchers were able to transplant similar insulin-producing cells into a 59-year-old man’s liver, also stopping him from requiring insulin injections.
 
Type 2 diabetes is where the body cannot use insulin properly, and can be managed through diet, exercise, or medication like insulin.

 

 

Game-changer schizophrenia drug

The US Food and Drug Administration has approved a revolutionary new treatment for schizophrenia – the first in 30 years.

Schizophrenia is a serious, chronic mental health condition and the leading cause of disability worldwide, affecting 24 million people.

Current therapies, despite being successful in moderating symptoms in much of the affected population, are often poorly tolerated due to side effects.

The new drug, Cobenfy, performs much better than other treatments and with fewer side effects because of the way it reacts with brain cells, discovered thanks to animal research.

Animal studies using mice and rats demonstrated that one of the drug’s ingredients, xanomeline, supported cognitive functions and could control the symptoms of schizophrenia. The drug was used separately up until the late 2000s, however its side effects in humans led to it being shelved.

Over the last decade, clinical trials of Cobenfy have continued with researchers combining xanomeline with the drug trospium chloride. The trials have now confirmed the effectiveness of the new drug, and saw a similar improvement of schizophrenia symptoms, as shown in the earlier animal studies.

Christoph Correll, at the Zucker School of Medicine at Hofstra/Northwell, New York, who helped to analyse data from the trials, said: “This will be a revolution in the treatment of psychosis, and I’m not saying this lightly! Now we will now be able to treat people who haven’t been helped with traditional antipsychotics.”

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