Scheller Lab

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Scheller Lab

@schellerlab

Neuroskeletal Biology Laboratory (NSBL) @WUSTLmed. Executive director @wustlcrm. President @ISBM_society. Nerves. Bones. Metabolism. Encouragement. 🔬🦴🧠❤️

Saint Louis, MO 가입일 Temmuz 2019

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고정된 트윗

Scheller Lab@schellerlab·9 Oca

Very happy to start 2026 by sharing our new manuscript in Nature Metabolism.✨ By studying the constitutive adipocytes in the bone marrow, we identified a brain-mediated pathway that bypasses the SNS to evoke massive fat loss. 🧠🦴 Full article here: lnkd.in/gH7eHv4r

Nature Metabolism@NatMetabolism

A catecholamine-independent pathway controlling adaptive adipocyte lipolysis dlvr.it/TQF2Gk

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Scheller Lab 리트윗함

PsyPost.org@PsyPost·2d

A new study reveals how the brain triggers the breakdown of stable fat cells that normally resist diet and exercise. This discovery provides evidence for how severe wasting diseases cause dangerous weight loss in vulnerable patients. dlvr.it/TRYzzT

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WashU Office of Neuroscience Research@WashUONR·19 Şub

A team led by @schellerlab @WashUDeptMed, with @XiaoZhang1994 and others identified a potent pathway that begins in the brain and leads to loss of all body fat without reducing food intake. Findings published in @NatMetabolism. #WashUNeuroCommunity bit.ly/4tL1AIg

WashU Office of Neuroscience Research tweet media

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Scheller Lab@schellerlab·18 Şub

Specific brain signals rapidly eliminate body fat in mice source.washu.edu/2026/02/specif…

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Professor Erwin Loh@erwinloh·12 Şub

Specific Brain Signals Rapidly Eliminate Body Fat in Mice Sustained injection of leptin into the brain was shown to unlock stable adipocytes, leading to complete loss of body fat. Researchers at WashU Medicine have identified a potent pathway that begins in the brain and leads to loss of all body fat without reducing food intake. In mice, sustained injection of leptin, a hormone, into the brain was able to unlock the stable adipocytes by putting the body into a state of low glucose and insulin. This reduced the inhibitors of fat breakdown, causing complete loss of body fat within days, even though the mice were still eating normally. Source in comments.

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Nature Metabolism@NatMetabolism·11 Şub

RESEARCH | @schellerlab (WUSTL, US) Stable #adipocytes resist lipolysis in healthy states but are highly susceptible to a #catecholamine-independent, #neurosystemic pathway-driven catabolic state🐭 nature.com/articles/s4225…

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Medical Xpress@medical_xpress·11 Şub

#Activation of specific brain signals in mice triggers rapid, complete loss of body fat without reducing food intake, highlighting a potent neural pathway that regulates resistant fat stores. @wustl doi.org/hbn59g medicalxpress.com/news/2026-02-s…

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Nutrition Science@NutrioSci·13 Şub

New Pathway Controls Fat Breakdown Without Catecholamines #Obesity #Nutrition #nutrients #MedX

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Scheller Lab@schellerlab·22 Oca

@DrAhmedAlSaedi Thank you, Ahmed! We look forward to seeing where the work goes next.

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Ahmed Al Saedi@DrAhmedAlSaedi·20 Oca

Interesting how low glucose and insulin can trigger widespread fat breakdown and that certain adipocytes resist this process, offering new ideas for controlling fat loss. Great work from ⁦@schellerlab⁩ 👏 #BMAT #citeas" target="_blank" rel="nofollow noopener">nature.com/articles/s4225…

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Scheller Lab@schellerlab·9 Oca

Many thanks to Dr. Affinati and Dr. Schwartz for their insightful commentary on our recent article in @NatMetabolism. 🙏 We are truly honored. Original manuscript link here: nature.com/articles/s4225…

Nature Metabolism@NatMetabolism

Chewing the fat: a novel mechanism for lipolysis dlvr.it/TQF2QR

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Dr Singularity@Dr_Singularity·13 Eki

paper onlinelibrary.wiley.com/doi/10.1111/ac…

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Scheller Lab@schellerlab·27 Eki

Exciting work by @AriellaStudies that we were proud to be a part of!

Dr Singularity@Dr_Singularity

Big anti aging news Scientists Identify Core "Aging Genes" Shared Across Species. Silencing Them Extends Lifespan Researchers publishing in Aging Cell have pinpointed a set of core genes that drive aging across multiple species, from humans to worms. By analyzing 25 large gene expression datasets and testing the results in C. elegans, they found 6 key genes whose suppression extended lifespan by up to 15%. These genes regulate immune activity, tissue maintenance, and DNA stability, and many are already linked to age related diseases like Alzheimer’s and macular degeneration. The findings reveal universal aging mechanisms and new targets for anti aging therapies.

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Ariella Coler-Reilly🏳️‍🌈@AriellaStudies·15 Eki

That's me! I'm Researchers! 😁 Very nice to see this excitement. 🎉 Original paper here: onlinelibrary.wiley.com/doi/full/10.11…

Dr Singularity@Dr_Singularity

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Scheller Lab@schellerlab·7 Mar

#StandUpForScience2025

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Scheller Lab@schellerlab·4 Eki

@DrAhmedAlSaedi Thank you for your leadership on the ISBM ECI Committee over the past two years! The momentum and enthusiasm in our early careers is so exciting to see. The future is bright because of stars like you. 🌟

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Ahmed Al Saedi@DrAhmedAlSaedi·4 Eki

I had a fantastic experience at #ISBM2024 in #Toronto as a first-time attendee. The event provided excellent tips and insights for my research, along with cosy meetings that fostered great networking and meaningful discussions.

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International Society of Bone Morphometry (ISBM)@ISBM_society·4 Eki

🎬And that's a wrap! Thanks to everyone that made #ISBM2024 a success. We hope you met some new buddies and left with new tools, ideas, and inspiration. We look forward to staying in touch until we see you again in London at ISBM 2026!

International Society of Bone Morphometry (ISBM) tweet media

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Scheller Lab@schellerlab·3 Eki

Followed up by a very neat live demo for setting up an AI-assisted image registration pipeline! Lots to learn for the biologists - but very cool to see an expert go through the steps in real time.