Monthly Archives: September 2022

Cell Biology

More Effective Cancer Immunotherapy: Stanfords New Method To Find Antigens That Trigger Specific Immune Cells – SciTechDaily

Scientists have developed a new method to faster and more accurately predict which antigens will lead to a strong immune response. This could help researchers develop more effective cancer immunotherapies.

A cells secrets can be revealed by its surface. It is decorated with tens to hundreds of thousands of molecules that help immune cells determine friend from foe. Some of those protruding molecules are antigens that trigger the immune system to attack. However, it can be difficult for scientists to identify those antigens, which often vary across individuals, in the molecular forest.

A team of Stanford scientists has developed a new method to faster and more accurately predict which antigens will lead to a strong immune response. Their approach could help researchers develop more effective cancer immunotherapies. The study was led by Polly Fordyce, an Institute Scholar at Sarafan ChEM-H, and will be reported today (September 5, 2022) in the journal Nature Methods.

T cells, a class of immune cells, crawl along and squish past other cells as they patrol the body. They use T cell receptors to molecularly read peptides, or short pieces of proteins which are cradled within larger proteins called major histocompatibility complexes (pMHCs) that project from cell surfaces. Healthy host cells display an array of pMHCs that do not trigger an immune response. However, once T cells recognize disease-indicating peptides, they become activated to find and kill cells bearing these foreign signatures. Understanding how T cells sensitively differentiate these antigenic peptides from host peptides to avoid mistakenly killing host cells has long been a mystery.

A T cell can detect a single antigenic peptide amongst a sea of 10,000 or 100,000 non-antigenic peptides being displayed on cell surfaces, said Fordyce, assistant professor of bioengineering and of genetics.

The key to selectivity is in the T cell crawl. T cells sliding puts stress on the bonds between receptors and peptides, and most of the time, that extra stress is enough to break that bond. But sometimes, it has the opposite effect. Chris Garcia, co-author of the study and professor of molecular and cellular physiology and of structural biology, and others had previously shown that the most antigenic peptides are those whose interactions with T cell receptors grow stronger in response to sliding.

Its kind of like a Chinese finger trap, said Fordyce. When you pull a bit at the receptor-antigen interaction, the binding actually lasts longer.

Identifying the best antigen-receptor pairs requires simultaneously applying that sliding, or shear, force between a peptide and a T cell and measuring T cell activation. Ideally, this would be done thousands of times to get repeatable data for many possible peptide/T cell receptor pairs. However, existing methods are time-intensive and can result in measuring only one peptide with hundreds of T cells in a day.

Postdoctoral scholar Yinnian Feng, the studys first author, developed a trick that allows the team to measure 20 unique peptides interacting with thousands of T cells in less than five hours.

To make a simplified system that mimics cells with dangling peptides, they constructed small spherical beads from a material that expands upon heating and attached a few molecules of a given peptide-studded pMHC to their surfaces. After depositing a T cell atop each bead and waiting long enough for receptors to bind to the peptides, they then very slightly heated the bead. The beads expansion increases the distance between tether points, and the corresponding stretching of the T cell mimics the force it would experience sliding along cells in the body. After exerting that force, the team then measured how active the T cells were.

They could do hundreds of individual experiments in parallel by using beads that are each labeled with a unique color, making it possible to track multiple different pMHCs. They took two sets of pictures tiling across each slide after each run: one set that tells them which pMHC a given bead is displaying and another that tells them how active each T cell atop that bead is. Cross-referencing those images tells them which antigens led to the strongest T cell responses.

In this demonstration of their platform, the research team showed, with 21 unique peptides, that their results confirmed known activating and non-activating peptides for one T cell receptor and uncovered a previously unknown antigen that induced a strong T cell response. Working with the Garcia lab, they have also already begun to address a challenge in immunotherapy: the T cell receptors that form the highest affinity interactions with antigens in the lab are often also activated by non-antigenic peptides in the body. This is a dangerous side effect that leads to the killing of healthy cells.

Using their technology, the team of researchers characterized T cell receptors engineered to specifically recognize tumor antigens without off-target reactivity. In future work, they plan to build libraries of over 1,000 peptides to uncover novel antigens.

The scientists hope that this approach, which is quick and requires few cells, or an optimized form of it could one day be used to improve personalized immunotherapies.

This platform can help improve efforts to engineer T cells that specifically target cancer cells, as well as determine which antigens are capable of potently activating a patients own T cells to more effectively target cancer cells, said Fordyce.

Reference: Bead-based method for high-throughput mapping of the sequence- and force-dependence of T cell activation 5 September 2022, Nature Methods.DOI: 10.1038/s41592-022-01592-2

Fordyce is a member of Stanford Bio-X, SPARK, and the Wu Tsai Neurosciences Institute, and is a Chan Zuckerberg Biohub investigator. Garcia is a member of Stanford Bio-X, the Stanford Cancer Institute, the Wu Tsai Neurosciences Institute, and a Howard Hughes Medical Institute investigator.

Xiang Zhao and Adam K. White are also authors of the paper.

The work was funded by a Stanford Bio-X Interdisciplinary Initiatives seed grant and the National Institutes of Health.

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More Effective Cancer Immunotherapy: Stanfords New Method To Find Antigens That Trigger Specific Immune Cells - SciTechDaily

Anatomy

Kate Walshs Addison Returns to Greys Anatomy Season 19 in Recurring Role (EXCLUSIVE) – Variety

Kate Walsh is set to recur in the upcoming 19th season of Greys Anatomy, returning as Dr. Addison Montgomery, the character shes played since the Season 1 finale of the medical drama in 2005. Walshs Addison was also the central character on Private Practice the first Greys spinoff which ran for six seasons on ABC, from 2007 to 2013.

Walsh appeared on Greys last season in a multi-episode arc, in which Addison returned to Grey Sloan Memorial in order to perform a uterine transplant on a patient, who later miscarried. During her Season 18 appearances, Addison grieved the death of her ex-husband Derek (Patrick Dempsey) with his sister Amelia (Caterina Scorsone) and his widow Meredith (Ellen Pompeo).

In an interview last year, Walsh was enthusiastic about returning to Greys to play Addison for the first time since Private Practice had ended, saying I was very satisfied and delighted by it. She also left the door open for more. Nobody knows what the future holds, Walsh said at the time. But for now, this is what weve got planned: just to have Addison pop in and well see what happens, what transpires.

Addison will indeed be popping back in: Her first appearance will be in the third episode of the new season.

Season 19 of Greys Anatomy premieres on ABC on Oct. 6, and Pompeo around whom the show has revolved since its 2005 premiere will for the first time have a reduced role as Meredith. As was announced in August, though Merediths narration will continue to begin and end every episode, Pompeo (also an executive producer) will appear in only eight episodes this season. Under her Calamity Jane production company, she is producing and starring in an upcoming untitled limited series for Hulu.

Pompeo is irreplacable, of course, but a slew of cast members have been added to Greys to play the new surgical interns at the hospital, including Harry Shum Jr., Adelaide Kane, Alexis Floyd, Niko Terho and Midori Francis.

Greys created by Shonda Rhimes, and run by executive producer Krista Vernoff continues to be ABCs No. 1 scripted series.

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Kate Walshs Addison Returns to Greys Anatomy Season 19 in Recurring Role (EXCLUSIVE) - Variety

Anatomy

Grey’s Anatomy season 19: How will Teddy, Owen return? – CarterMatt

As we prepare for the arrival ofGreys Anatomyseason 19 on ABC next month, we know there are a lot of big questions. Its pretty unavoidable that there would be, all things considered.

Inevitably, one of the biggest mysteries at the moment has to be the status of one Ellen Pompeo, given that shes only going to be in a handful of episodes this season. Yet, there is also more than that going on, and this is where we look towards Teddy and Owen. Whats going to happen to the two of them?

The last that we saw Kevin McKidd and Kim Ravers characters, the two of them were fleeting Seattle after Bailey was forced to call the police. However, there is going to be a six-month time jump and in that span of time, things have been worked out enough for the two to come back but there are still some major problems.

According to a report from TV Insider, Teddy and Owen will be around, and Owen is still even going to have his medical license. However, there are some big problems here, starting with the fact that their relationship is torn apart; also, they are effectively bankrupt. Whether it be a possible legal defense or traveling out of the city, whatever money the two had has been whittled completely away. This is a whole new challenge for the two of them, and were sure that will be center stage for the two of them for a while.

As for what else is happening around the two of them, we know that a lot of the marketing for this season so far has been about the new residents as a matter of fact, you can head over here to learn a little bit more about some of them. We hope that theyre interesting, especially since this show faces some of its biggest challenges yet entering this season. Are people still going to watch the show without Meredith? Were going to find out over time.

Be sure to share right now in the comments! Once you do just that, come back for other updates you dont want to miss. (Photo: ABC.)

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Grey's Anatomy season 19: How will Teddy, Owen return? - CarterMatt

Anatomy

Centinel Spine Announces First Commercial Use of prodisc Cervical Total Disc Replacement Portfolio that Allows the Disc to be Matched to Patient…

West Chester, PA,September 7, 2022 /OrthoSpineNews/ Centinel Spine, LLC, a leading global medical device company addressing cervical and lumbar spinal disease through anterior surgical access, today announced the first implantation of its prodiscCVivoCervical Total Disc Replacement (TDR) product. In July, the company received U.S. Food and Drug Administration approval for 1-level indications for prodiscC Vivo, prodiscC SK,and prodiscC Nova. Along with the currently available prodiscCimplant, which remains the most studied TDR technology, Centinel Spine now has the broadest offering of cervical TDR solutions in the world to address surgeon preference and individual patient anatomy.

The first prodisc C Vivo procedure was performed in Dallas-Fort Worth, TXby orthopedic spine surgeon Jason Tinley, MD, founder of DFW Center for Spinal Disorders.

This patient had severe left-sided neck pain radiating into the forearm and thumb and a left C5/6 disc herniation, said Dr. Jason Tinley. Having the intraoperative options of a convex dome with spikes (prodisc C Vivo) versus a flat endplate component with keel (prodisc C) gave me the modularity to maximize endplate contact and stability, thus decreasing bone removal, risk of heterotopic ossification, subsidence, or implant failure. Ultimately, this allows me to best restore motion while also minimizing risk, Dr. Tinley adds.

Centinel Spine CEO Steve Murray stated, This is a historic milestone for the company, and we appreciate the support from our surgeon partners. Total disc replacement is one of the fastest growing global segments in all of orthopedics, and we continue innovating in this area to advance patient care. With our recent regulatory achievements, we are now able to offer surgeons a unique range of options to match the disc to patient anatomy.

The prodisc C Vivo system has been in clinical use internationally since 2009 and is currently one of the most frequently implanted TDR devices outside of the U.S. The device has keel-less fixation and combines a unique anatomically-designed superior endplate with lateral spikes to optimize fit and provide immediate fixation.Similar to all prodisc products, the prodisc C Vivo device incorporates prodisc CORE technology, the basis behind the predictable clinical outcomes of the prodisc platform after 30 years and over 225,000 implantations worldwide*.

* Data on file

About Centinel Spine, LLCCentinel Spine, LLC is a leading global medical device companyaddressing cervical and lumbar spinal disease through anterior surgical access. The company offers a continuum of trusted, brand-name, motion-preserving and fusion solutions backed by over 30 years of clinical successproviding the most robust and clinically-proven technology platforms in the world for total disc replacement (prodisc) and Integrated Interbody fusion (STALIF).

Centinel Spine continues to advance its pioneering culture and corporate mission to become a catalyst of change in the spine industry and alter the way spine surgery is perceived. Centinel Spine remains the only company with comprehensive motion-preserving and fusion solutions for both cervical and lumbar anterior column reconstruction.

For more information, please visit the companys website atwww.CentinelSpine.comor contact:

Centinel SpineVarun GandhiChief Financial Officer900 Airport Road, Suite3BWest Chester, PA19380Phone: 484-887-8871Email:v.gandhi@centinelspine.com

MediaSean LeousICR WestwickePhone: +1.646.677.1839sean.leous@westwicke.com

SOURCE Centinel Spine, LLC

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Centinel Spine Announces First Commercial Use of prodisc Cervical Total Disc Replacement Portfolio that Allows the Disc to be Matched to Patient...

Anatomy

‘Celebrity Wheel of Fortune’ returns with Snoop Dogg, ‘Grey’s Anatomy’ vet – Entertainment Weekly News

Celebrity Wheel of Fortune returns with Snoop Dogg, Grey's Anatomy vet | EW.com Skip to content Top Navigation Close this dialog window Explore EW.com Close this dialog window Share & More Close this dialog window View image

Celebrity Wheel of Fortune returns with Snoop Dogg, Grey's Anatomy vet, Jenifer Lewis, and more

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'Celebrity Wheel of Fortune' returns with Snoop Dogg, 'Grey's Anatomy' vet - Entertainment Weekly News

Anatomy

It’s Time for ‘Grey’s Anatomy’ To Throw in the Towel – Study Breaks

When Greys Anatomy first premiered in 2005, nobody could have predicted what it would become. In the 17 years since the now-iconic pilot episode aired, the show has become a cultural juggernaut, gathering a whopping 38 Emmy nominations in its 18 soon to be 19 seasons on the air.

Besides its sheer stature in pop culture, Greys Anatomy has also used its power as a force for good in the world. It has increased awareness of the RAINN sexual assault hotline, inspired women to pursue medical careers, and even saved a mothers life back in 2011.

In short, regardless of its imperfections, Greys Anatomy has been a good thing overall. However, all good things must eventually end and for Greys Anatomy, that time is now.

There are many reasons Greys Anatomy continues to stay on the air. Leading lady Ellen Pompeo, who plays the titular Meredith Grey, is still under contract, albeit in a reduced capacity for the upcoming Season 19. She has said herself on numerous occasions that she wants the show or at least her role in it to end sooner rather than later.

If Pompeo moves on from the show, Greys Anatomy would only have two actors from the original 2005 cast: James Pickens Jr., who plays Richard Webber, and Chandra Wilson, who plays Miranda Bailey. Both Pickens and Wilson have remained committed to the show all these years, and their characters are still integral pieces of the stories being told. But Pompeo is the star, and there really doesnt seem to be any viable way forward without her.

Casting is not the only thing to consider, of course. Ratings are important too, and they paint a very clear picture. They arent bad by any stretch of the imagination as the show manages to pull in millions of viewers every week. However, they are far from where they were at their prime, and Pompeos diminished screen time in the upcoming Season 19 doesnt bode well for those numbers.

However, more than reduced viewership and a dwindling number of original cast members, there is one key reason Greys Anatomy needs to end it just isnt that good of a television show anymore.

Greys Anatomy was always a bit silly. It was a show that leaned into dramatics, one that felt over-the-top and campy without ever losing its powerful human element. It was a show that, while imperfect, felt balanced. Greys Anatomy had all the romance of a traditional soap opera, the medical drama required by its setting, and the heart and humor to keep everything tied together.

In the early days of Greys Anatomy, there was balance. Now though, the balance is gone, and with it the quality that made the show worth watching in the first place.

Part of that imbalance comes with running for 17 straight years. The world has changed drastically since 2005, and though Shonda Rhimes is nothing short of magical in the realm of television, its difficult to keep anything relevant and fresh for almost two decades. The newer episodes of Greys Anatomy dont feel dated, per se, but the spark that made the first dozen seasons so enjoyable just isnt there anymore. Even when the content is new, Greys Anatomy is still a little old, which makes it less watchable than it was at its inception.

Another obstacle that Greys Anatomy could not overcome is the loss of its standout characters. As previously mentioned, most of the original cast members have left the show to pursue other opportunities, and the empty spots they left on the shows roster were filled soon after. However, the primary problem here is that the characters who have left were also the best characters in the show. And for the most part, their replacements havent been able to live up to their predecessors.

There was Cristina Yang, Meredith Greys best friend and fellow surgical resident who almost immediately became one of the most beloved characters in the shows history. At the close of Season 10, the character left for good, and nobody whos come since has filled the void left by Sandra Oh. There was Derek Shepherd, Merediths husband, who still lingers on the edges of every romantic interaction she has despite being killed off in Season 11. There were more characters along these same lines: Mark Sloan and Lexie Grey, Arizona Robbins and Callie Torres, April Kepner and Jackson Avery, Alex Karev and George OMalley. All of them sat at the very heart of Greys Anatomy, and the show has been unable to achieve its previous heights without them.

Most of all, Greys Anatomy needs to end because the plots themselves are no longer interesting. After a near-two decade run, the showrunners are, quite frankly, running out of ideas. At numerous points in the last five seasons, they have recycled events from episodes past, done in a manner so obvious that it seems like they arent even trying to be original anymore.

This is reasonable maybe even acceptable. After all, Greys Anatomy has been running for so long that some repetition is not only expected, but necessary. However, as mentioned at the beginning of the article, Greys Anatomy is a program that leans into drama, the quality that made the earlier seasons so interesting. Now that drama is working against the longevity of the show. The showrunners have already used so many disasters that there are few left to exploit, which forces them to reuse old plot points but these are plot points that are only successfully used once at best so their recurrence makes it difficult to take the show seriously.

Greys Anatomy has, and will always be, a work of great significance. Its impact on pop culture and society is immense and changed the world of television forever. However, it is no longer the groundbreaking series it once was; instead, it is a pale imitation of its previous self. Once a show that felt silly but still grounded, Greys Anatomy has devolved into what can only be described as sheer ridiculousness. And if it wants to preserve its legacy, it needs to wrap up now, before its ruined.

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It's Time for 'Grey's Anatomy' To Throw in the Towel - Study Breaks

Physiology

37th TRW takes over aerospace physiology training program – 37th Training Wing

WRIGHT PATTERSON AIR FORCE BASE, Ohio The 37thTraining Wing took responsibility of the 344thTraining Squadron Detachment 2 Aug. 25, after an official transfer authority from the 711th Human Performance Wing.

Specifically, the 37thTraining Group, headquartered at Joint Base San Antonio-Lackland, Texas, will be executing the technical training mission.

Detachment 2 has three missions:

Provide Air Force Specialty Code courses meaning it is a formal technical school for aerospace physiology officers and technicians.

Provide acceleration training for all fighter aircrew.

Provide aerospace physiology initial and refresher training for all aircrew, both enlisted and officers.

The detachment provides training to 68 agencies, 24 states, and 40 countries, averaging about 2,100 students each year. Students include prior and non-prior service, Air National Guard, Air Force Reserve, Department of Defense civilians, and international students.

The training covers classroom academics and hands-on training with two training altitude chambers, the Department of Defenses only centrifuge, and a reduced oxygen breathing device. The centrifuge serves two purposes to test future fighter aircrews ability to endure high gravitational forces and to research the effect of high gravitational force on human physiology, with the research mission accomplished by the 711th HPW.

It was an outstanding day for the Gateway Wing and the 37thTraining Group because our family of Airmen is growing again, said Col. John Goodson III, 37th TRG commander. The Gateway Wing, led by my boss Col. Lauren Courchaine, is truly a phenomenal and one-of-a-kindwing. We are a training machine and thats why we are a perfect match for Det 2, their fantastic team, and their unique training mission that focuses on the stress that modern aviation places on the human body.

Historically, administrative and operational control of the aerospace physiology career field fell under the Air Force Surgeon General. In the late 1990s, it was determined that aircrew training could not be funded by Defense Health Program funds. Eventually, the funds to execute the training programs were transferred to the Air Force Directorate of Operations. However, the recruitment and development of personnel remained under the AF/SG.

According to Lt. Col. Christianne Opresko, 344th TRS Detachment 2 commander, in 2007, an Air Force Smart Operations for the 21st Century Event recognized numerous programmatic disconnects associated with the aerospace physiology enterprise.

Between 2007 and 2017, there was an increase in flight physiological events in various tactical aircraft, Opresko said. In response, Congress directed a look to determine how the Air Force trains aircrew, as well as how the Air Force acquires its aircraft systems for use. This led to the formation of the Air Force Physiological Events Action Team.

The AFPEAT and the aerospace physiology enterprise had three recommendations:

Consolidate the remaining funding of the aerospace physiology program from AF/SG funding to Air Force Directorate of Operations funding, specifically to recruit, access, and develop the people.

Properly align the aerospace physiology enterprise with the requirement owner (Air Force Directorate of Operations).

Increase aerospace physiology aircrew breathing system and aircrew performance knowledge by integration of aerospace physiology personnel in direct weapons system support roles.

On June 17, 2021, acting Secretary of the Air Force John Roth and Chief of Staff of the Air Force Gen. Charles Q. Brown, Jr., signed a Program Action Directive with the following objectives:

Consolidate aerospace physiology enterprise under Air Force Directorate of Operations funding.

Re-align the personnel and organization entities with the requirement.

Correct the expertise gap identified by the AFPEAT.

Transition aerospace physiology officer and enlisted personnel to new Line of the Air Force AFSCs.

Additionally, the PAD directed Air Education and Training Command, in conjunction with medical career field managers, to task formal training requirement from the U.S. Air Force School of Aerospace Medicine, 711th HPW, to AETC.

This is the second aerospace physiology training program that falls under AETC, with the other one located at JBSA-Randolph, Texas, under the 12th Operations Support Squadron.

The 37thTraining Group has four geographically separated units which are located at Fort Leonard Wood, Missouri; Fort Lee, Va.; Wright Patterson Air Force Base, Ohio; and Port Hueneme, Calif. The group is responsible for instructing 25officer and enlisted AFSCs and teaching over 130 courses.

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37th TRW takes over aerospace physiology training program - 37th Training Wing

Physiology

In Remembrance of Dr. Peter Bennett | Duke Department of Anesthesiology – Duke University

It is with profound sadness that we inform you about the passing of a beloved member of our Duke Anesthesiology family, Peter Bennett, PhD, DSc, emeritus professor of anesthesiology. He passed away on August 9 at the age of 91. Dr. Bennett will be remembered as a highly respected researcher and entrepreneur who dedicated his life's work to the advancement of diving. A champion of dive safety, he notably founded the Divers Alert Network (DAN) in 1980 - a non-profit organization, which he led for 23 years. DAN is the worlds most recognized and respected dive safety organization that helps divers in need of medical emergency assistance and promotes dive safety through research, education, products, and services.

Dr. Bennett was born in England, where he earned his doctorate and doctor of sciences in physiology and biochemistry at the University of Southampton. He began his career as a scientist investigating the physiology of deep diving, particularly the mechanisms of high-pressure nervous syndrome. In 1972, Dr. Bennett moved to the United States and joined Duke Anesthesiology where he was appointed director of research in the department and co-director of Dukes FG Hall Environmental Laboratory. Dr. Bennett went on to become director of the lab in which he led a team of investigators during performance of a series of human deep dives in the Hall Labs hyperbaric chambers to a world record depth of 2,250 feet of sea water. After retiring as president of DAN in 2003, Dr. Bennett became the executive director for the Underwater Hyperbaric Medical Society until 2014. As a leading authority on the effects of high pressure on human physiology, he published more than 100 scientific papers and nine books, including the signature textbook, Physiology and Medicine of Diving, known as a definitive work in his field. He was also a mentor to many junior scientists around the world.

Dr. Bennett leaves behind his wife, Margaret, and son, Chris. Please join us in extending our sincerest condolences to Dr. Bennett's family, friends and colleagues. Duke flags will be lowered in honor of his life and legacy.

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In Remembrance of Dr. Peter Bennett | Duke Department of Anesthesiology - Duke University

Physiology

Study finds enzyme in the brain is a ‘metastat’ for body weight – Yale News

An enzyme found in the brain acts as a major regulator of body weight, Yale researchers have discovered. In a new study, they found that removing the enzyme from neurons in a part of the brain known as the hypothalamus led mice to gain weight and burn less fat. This finding, they say, suggests that the enzyme could be a target for treating metabolic disease.

The findings were published Aug. 31 in Science Advances.

Dysregulated metabolism is implicated in a host of metabolic disorders, including obesity and diabetes. The hypothalamus region of the brain is essential for metabolic control and the area known as the ventromedial hypothalamus is known to regulate body weight, eating, and glucose balance. How the ventromedial hypothalamus does this, however, is less clear.

For the study, Yale researchers focused on an enzyme called O-linked b-D-N-acetylglucosamine transferase, or OGT. Though researchers have a partial understanding of the enzymes role in other parts of the body such as mediating nutritional and hormonal regulation in different organs and tissues what it does in the brain is largely unknown.

As a first step, researchers observed what happened to OGT in neurons of the ventromedial hypothalamus when food intake was adjusted. They found that when mice consumed less food, OGT levels went up.

This suggested that OGT plays an important role as a nutrient sensor in this neuron population, said Xiaoyong Yang, professor of comparative medicine and of cellular and molecular physiology at Yale School of Medicine and senior author of the study.

To better understand this role, Yang and his colleagues bred mice that lacked OGT in neurons of the ventromedial hypothalamus. They found that the mice gained weight very quickly on a normal diet, becoming much heavier than typical mice even though they were eating the same amount of food and were just as physically active.

A key difference was that the mice without OGT expended less energy than their counterparts.

Just sitting at rest, you burn energy because you need to maintain the vital functions of the body, such as breathing, digestion, and brain activity, said Yang. And though the mice lacking OGT werent less physically active, they burned less energy at this basal level.

They also responded differently to fasting.

When the body has adequate amounts of food, its preferred fuel is glucose. But when you fast, your glucose runs out quickly, explained Yang. The body then taps into its fat stores in order to meet energy demands.

But in the study, mice lacking OGT didnt burn fat as much as other mice when food was restricted.

The problem had to do with glucose-sensing, said the researchers. The ability to sense glucose is essential for keeping it at the level the body needs. If neurons cant sense glucose properly, they wont make necessary metabolic adjustments, like telling the body to burn fat. In the study, neurons without OGT didnt sense glucose as well as those with the enzyme.

Without OGT, the body cant sense that less food is coming in, and then it doesnt tell its fat tissues to burn fat, said Yang.

Yang likens OGT to a thermostat, or a metastat, as he calls it, since OGT is crucial for metabolic homeostasis.

You set a thermostat to the temperature youd like a room to be. In the summer, as your room begins to heat up, your air conditioner kicks in to return the room to the temperature youve programmed.

OGT is like a metastat, Yang says, working to keep the bodys weight at its set point. And that set point will be different from individual to individual, he said.

While a persons weight can fluctuate from time to time, the bodys metabolic processes work to keep the weight around its set point. So if you eat a big meal, for example, your body recognizes that and burns more calories to keep your weight at that set point, said Yang. And OGT is critical for setting that weight point.

Because of this, OGT could be a target for treating metabolic diseases, he said. Its possible that, in the future, a drug could be used to target OGT in ventromedial hypothalamus neurons to fine-tune a persons body weight set point, adjusting it if its too high or too low.

Its still a long way off, said Yang, But one day we might be able to reprogram a persons metastat to achieve desired body weight.

Other Yale authors include Qi Wang, Bichen Zhang, Bernardo Stutz, Zhong-Wu Liu, and Tamas Horvath.

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Study finds enzyme in the brain is a 'metastat' for body weight - Yale News