Summary: Researchers developed Anthrobots, microscopic biological robots made from human tracheal cells, demonstrating potential in healing and regenerative medicine.
These self-assembling multicellular robots, ranging from hair-width to pencil-point size, show remarkable healing effects, particularly in neuron growth across damaged areas in lab conditions.
Building on earlier Xenobot research, this study reveals that Anthrobots can be created from adult human cells without genetic modification, offering a new approach to patient-specific therapeutic tools.
Key Facts:
Source: Tufts University
Researchers at Tufts University and Harvard Universitys Wyss Institute have created tiny biological robots that they call Anthrobots from human tracheal cells that can move across a surface and have been found to encourage the growth of neurons across a region of damage in a lab dish.
The multicellular robots, ranging in size from the width of a human hair to the point of a sharpened pencil, were made to self-assemble and shown to have a remarkable healing effect on other cells. The discovery is a starting point for the researchers vision to use patient-derived biobots as new therapeutic tools for regeneration, healing, and treatment of disease.
The work follows from earlier research in the laboratories of Michael Levin, Vannevar Bush Professor of Biology at Tufts UniversitySchool of Arts & Sciences, and Josh Bongard at the University of Vermont in which they created multicellular biological robots from frog embryo cells calledXenobots, capable of navigating passageways, collecting material,recording information, healing themselves from injury, and evenreplicating for a few cycleson their own.
At the time, researchers did not know if these capabilities were dependent on their being derived from an amphibian embryo, or if biobots could be constructed from cells of other species.
In the current study, published inAdvanced Science, Levin, along with PhD student Gizem Gumuskaya discovered that bots can in fact be created from adult human cells without any genetic modification and they are demonstrating some capabilities beyond what was observed with the Xenobots.
The discovery starts to answer a broader question that the lab has posedwhat are the rules that govern how cells assemble and work together in the body, and can the cells be taken out of their natural context and recombined into different body plans to carry out other functions by design?
In this case, researchers gave human cells, after decades of quiet life in the trachea, a chance to reboot and find ways of creating new structures and tasks.
We wanted to probe what cells can do besides create default features in the body, said Gumuskaya, who earned a degree in architecture before coming into biology.
By reprogramming interactions between cells, new multicellular structures can be created, analogous to the way stone and brick can be arranged into different structural elements like walls, archways or columns.
The researchers found that not only could the cells create new multicellular shapes, but they could move in different ways over a surface of human neurons grown in a lab dish and encourage new growth to fill in gaps caused by scratching the layer of cells.
Exactly how the Anthrobots encourage growth of neurons is not yet clear, but the researchers confirmed that neurons grew under the area covered by a clustered assembly of Anthrobots, which they called a superbot.
The cellular assemblies we construct in the lab can have capabilities that go beyond what they do in the body, said Levin, who also serves as the director of the Allen Discovery Center at Tufts and is an associate faculty member of the Wyss Institute. It is fascinating and completely unexpected that normal patient tracheal cells, without modifying their DNA, can move on their own and encourage neuron growth across a region of damage, said Levin.
Were now looking at how the healing mechanism works, and asking what else these constructs can do.
The advantages of using human cells include the ability to construct bots from a patients own cells to perform therapeutic work without the risk of triggering an immune response or requiring immunosuppressants. They only last a few weeks before breaking down, and so can easily be re-absorbed into the body after their work is done.
In addition, outside of the body, Anthrobots can only survive in very specific laboratory conditions, and there is no risk of exposure or unintended spread outside the lab. Likewise, they do not reproduce, and they have no genetic edits, additions or deletions, so there is no risk of their evolving beyond existing safeguards.
How Are Anthrobots Made?
Each Anthrobot starts out as a single cell, derived from an adult donor. The cells come from the surface of the trachea and are covered with hairlike projections called cilia that wave back and forth. The cilia help the tracheal cells push out tiny particles that find their way into air passages of the lung.
We all experience the work of ciliated cells when we take the final step of expelling the particles and excess fluid by coughing or clearing our throats. Earlier studies by others had shown that when the cells are grown in the lab, they spontaneously form tiny multicellular spheres called organoids.
The researchers developed growth conditions that encouraged the cilia to face outward on organoids. Within a few days they started moving around, driven by the cilia acting like oars. They noted different shapes and types of movement the first. important feature observed of the biorobotics platform.
Levin says that if other features could be added to the Anthrobots (for example, contributed by different cells), they could be designed to respond to their environment, and travel to and perform functions in the body, or help build engineered tissues in the lab.
The team, with the help of Simon Garnier at the New Jersey Institute of Technology, characterized the different types of Anthrobots that were produced. They observed that bots fell into a few discrete categories of shape and movement, ranging in size from 30 to 500 micrometers (from the thickness of a human hair to the point of a sharpened pencil), filling an important niche between nanotechnology and larger engineered devices.
Some were spherical and fully covered in cilia, and some were irregular or football shaped with more patchy coverage of cilia, or just covered with cilia on one side. They traveled in straight lines, moved in tight circles, combined those movements, or just sat around and wiggled. The spherical ones fully covered with cilia tended to be wigglers.
The Anthrobots with cilia distributed unevenly tended to move forward for longer stretches in straight or curved paths. They usually survived about 45-60 days in laboratory conditions before they naturally biodegraded.
Anthrobots self-assemble in the lab dish, said Gumuskaya, who created the Anthrobots. Unlike Xenobots, they dont require tweezers or scalpels to give them shape, and we can use adult cells even cells from elderly patients instead of embryonic cells. Its fully scalablewe can produce swarms of these bots in parallel, which is a good start for developing a therapeutic tool.
LittleHealers
Because Levin and Gumuskaya ultimately plan to make Anthrobots with therapeutic applications, they created a lab test to see how the bots might heal wounds. The model involved growing a two-dimensional layer of human neurons, and simply by scratching the layer with a thin metal rod, they created an open wound devoid of cells.
To ensure the gap would be exposed to a dense concentration of Anthrobots, they created superbots a cluster that naturally forms when the Anthrobots are confined to a small space. The superbots were made up primarily of circlers and wigglers, so they would not wander too far away from the open wound.
Although it might be expected that genetic modifications of Anthrobot cells would be needed to help the bots encourage neural growth, surprisingly the unmodified Anthrobots triggered substantial regrowth, creating a bridge of neurons as thick as the rest of the healthy cells on the plate.
Neurons did not grow in the wound where Anthrobots were absent. At least in the simplified 2D world of the lab dish, the Anthrobot assemblies encouraged efficient healing of live neural tissue.
According to the researchers, further development of the bots could lead to other applications, including clearing plaque buildup in the arteries of atherosclerosis patients, repairing spinal cord or retinal nerve damage, recognizing bacteria or cancer cells, or delivering drugs to targeted tissues. The Anthrobots could in theory assist in healing tissues, while also laying down pro-regenerative drugs.
Making New Blueprints, Restoring Old Ones
Gumuskaya explained that cells have the innate ability to self-assemble into larger structures in certain fundamental ways.
The cells can form layers, fold, make spheres, sort and separate themselves by type, fuse together, or even move, Gumuskaya said.
Two important differences from inanimate bricks are that cells can communicate with each other and create these structures dynamically, and each cell is programmed with many functions, like movement, secretion of molecules, detection of signals and more. We are just figuring out how to combine these elements to create new biological body plans and functionsdifferent than those found in nature.
Taking advantage of the inherently flexible rules of cellular assembly helps the scientists construct the bots, but it can also help them understand how natural body plans assemble, how the genome and environment work together to create tissues, organs, and limbs, and how to restore them withregenerative treatments.
Author: Mike Silver Source: Tufts University Contact: Mike Silver Tufts University Image: The image is credited to Gizem Gumuskaya, Tufts University
Original Research: Open access. Motile Living Biobots Self-Construct from Adult Human Somatic Progenitor Seed Cells by Michael Levin et al. Advanced Science
Abstract
Motile Living Biobots Self-Construct from Adult Human Somatic Progenitor Seed Cells
Fundamental knowledge gaps exist about the plasticity of cells from adult soma and the potential diversity of body shape and behavior in living constructs derived from genetically wild-type cells.
Here anthrobots are introduced, a spheroid-shaped multicellular biological robot (biobot) platform with diameters ranging from 30 to 500microns and cilia-powered locomotive abilities.
Each Anthrobot begins as a single cell, derived from the adult human lung, and self-constructs into a multicellular motile biobot after being cultured in extra cellular matrix for 2 weeks and transferred into a minimally viscous habitat.
Anthrobots exhibit diverse behaviors with motility patterns ranging from tight loops to straight lines and speeds ranging from 550micronss1. The anatomical investigations reveal that this behavioral diversity is significantly correlated with their morphological diversity.
Anthrobots can assume morphologies with fully polarized or wholly ciliated bodies and spherical or ellipsoidal shapes, each related to a distinct movement type. Anthrobots are found to be capable of traversing, andinducing rapid repair of scratches in, cultured human neural cell sheets in vitro.
By controlling microenvironmental cues in bulk, novel structures, with new and unexpected behavior and biomedically-relevant capabilities, can be discovered in morphogenetic processes without direct genetic editing or manual sculpting.
View original post here:
Anthrobots: Tiny Biobots From Human Cells Heal Neurons - Neuroscience News
- Mapping the Brain's Response to Social Rejection - Neuroscience News - December 9th, 2024 [December 9th, 2024]
- An eye for science: Q&A with Bryan W. Jones - The Transmitter: Neuroscience News and Perspectives - December 9th, 2024 [December 9th, 2024]
- Short Sleep and High Blood Pressure Linked to Brain Aging - Neuroscience News - December 9th, 2024 [December 9th, 2024]
- Neighborhood Disadvantage Linked to Cognitive Health Risks - Neuroscience News - December 9th, 2024 [December 9th, 2024]
- Psychosis Risk Tied to Heavy Cannabis Use and Genetic Factors - Neuroscience News - December 9th, 2024 [December 9th, 2024]
- Most Teens Recover From Long Covid Within Two Years - Neuroscience News - December 9th, 2024 [December 9th, 2024]
- Opportunities and challenges of single-cell and spatially resolved genomics methods for neuroscience discovery - Nature.com - December 9th, 2024 [December 9th, 2024]
- How Evolution Shaped the Brains Understanding of Numbers - Neuroscience News - December 9th, 2024 [December 9th, 2024]
- Neuroscience Study Aboard Cunard's Queen Mary 2 Reveals Cognitive Benefits of Slow Travel at Sea - PR Newswire - November 28th, 2024 [November 28th, 2024]
- How Expectations Shape Our Gaze in a Changing World - Neuroscience News - November 28th, 2024 [November 28th, 2024]
- To keep or not to keep: Neurophysiologys data dilemma - The Transmitter: Neuroscience News and Perspectives - November 28th, 2024 [November 28th, 2024]
- Does Alcohol Consumption Contribute to Hair Loss? - Neuroscience News - November 28th, 2024 [November 28th, 2024]
- Brains Traffic Controllers Hold Key to Learning and Memory - Neuroscience News - November 28th, 2024 [November 28th, 2024]
- Despite Neuroscience Setback, AbbVie Has Strong Recovery Ahead (ABBV) - Seeking Alpha - November 28th, 2024 [November 28th, 2024]
- Neuroscientists reeling from past cuts advocate for more BRAIN Initiative funding - The Transmitter: Neuroscience News and Perspectives - November 28th, 2024 [November 28th, 2024]
- Want Better Habits? Neuroscience Says This Is How to Train Your Brain - Inc. - November 28th, 2024 [November 28th, 2024]
- Dopamine and Serotonin Work in Opposition for Effective Learning - Neuroscience News - November 28th, 2024 [November 28th, 2024]
- Cunard Proves the Healing Power of Ocean Travel with Breakthrough Neuroscience Research - Travel And Tour World - November 28th, 2024 [November 28th, 2024]
- Bridging the Gap between Meditation, Neuroscience, and the Soul - openPR - November 28th, 2024 [November 28th, 2024]
- Animal Characters in Childrens Books Boost Theory of Mind - Neuroscience News - November 28th, 2024 [November 28th, 2024]
- Emotional Struggles and Tantrums in Preschoolers Linked to ADHD - Neuroscience News - November 28th, 2024 [November 28th, 2024]
- Neuroscience Says This Simple Habit Improves Cognitive Health and Makes Your Brain Act Younger - Inc. - November 20th, 2024 [November 20th, 2024]
- Premature declarations on animal consciousness hinder progress - The Transmitter: Neuroscience News and Perspectives - November 20th, 2024 [November 20th, 2024]
- Medtronic Q2 Earnings: Diabetes And Neuroscience Revenue Boost Growth, Raises Annual Outlook - Yahoo Finance - November 20th, 2024 [November 20th, 2024]
- Trace Neuroscience Nets $101M in Series A Funding for ALS, Dementia Therapy Development - Senior Housing News - November 20th, 2024 [November 20th, 2024]
- How to be a multidisciplinary neuroscientist - The Transmitter: Neuroscience News and Perspectives - November 20th, 2024 [November 20th, 2024]
- Neuroscience Market Expected to Reach USD 71.0 Billion by - GlobeNewswire - November 20th, 2024 [November 20th, 2024]
- Finger-Prick Test Brings Alzheimers Detection Closer to Everyone - Neuroscience News - November 20th, 2024 [November 20th, 2024]
- Dual-Gene Therapy Shows Promise for Hearing and Vision Loss - Neuroscience News - November 20th, 2024 [November 20th, 2024]
- Robots Help Unlock the Mystery of Human Sense of Self - Neuroscience News - November 20th, 2024 [November 20th, 2024]
- The neuroscience of sleep - University of South Carolina - November 20th, 2024 [November 20th, 2024]
- Stress warps fear memories in multiple ways - The Transmitter: Neuroscience News and Perspectives - November 20th, 2024 [November 20th, 2024]
- Mental Exhaustion Drives Aggressive Behavior - Neuroscience News - November 12th, 2024 [November 12th, 2024]
- NeuroAI: A field born from the symbiosis between neuroscience, AI - The Transmitter: Neuroscience News and Perspectives - November 12th, 2024 [November 12th, 2024]
- The neuroscience of deeper learning in math - SmartBrief - November 12th, 2024 [November 12th, 2024]
- What the brain can teach artificial neural networks - The Transmitter: Neuroscience News and Perspectives - November 12th, 2024 [November 12th, 2024]
- How Anthony Zador thinks neuroscience can help improve AI - The Transmitter: Neuroscience News and Perspectives - November 12th, 2024 [November 12th, 2024]
- Discovering Cancer Therapies through Neuroscience - The New York Academy of Sciences - November 12th, 2024 [November 12th, 2024]
- Neuroscience Market Projected to Reach USD 50.2 Billion by 2032, Growing at a 4.0% CAGR S&S Insider - GlobeNewswire - November 12th, 2024 [November 12th, 2024]
- Insights on Brain Aging and Lifelong Cognitive Health - Neuroscience News - November 12th, 2024 [November 12th, 2024]
- A neuroscience PhD student at the University of Oxford has died - The Tab - November 12th, 2024 [November 12th, 2024]
- Exploring the connection between autism and sleep - The Transmitter: Neuroscience News and Perspectives - November 12th, 2024 [November 12th, 2024]
- Astrocytes star in memory storage, recall - The Transmitter: Neuroscience News and Perspectives - November 12th, 2024 [November 12th, 2024]
- Gut Bacteria Modulate Stress Responses Over Time - Neuroscience News - November 12th, 2024 [November 12th, 2024]
- Gut Bacteria Could Hold the Key to Promoting Healthy Aging - Neuroscience News - November 12th, 2024 [November 12th, 2024]
- Microglias pruning function called into question - The Transmitter: Neuroscience News and Perspectives - October 26th, 2024 [October 26th, 2024]
- Depression Alters Brain Circuits, Heightening Negative Perception - Neuroscience News - October 26th, 2024 [October 26th, 2024]
- UNE Researchers Showcase Groundbreaking Work at Global Neuroscience Conference - University of New England - October 26th, 2024 [October 26th, 2024]
- Scientists discover "glue" that holds memory together in fascinating neuroscience breakthrough - PsyPost - October 26th, 2024 [October 26th, 2024]
- Systems neuroscience: combining theory and neurotechnology for a multiscale account of the brain - Nature.com - October 26th, 2024 [October 26th, 2024]
- Seaport Therapeutics adds another $225 million to coffers to embrace the golden age of neuroscience - STAT - October 26th, 2024 [October 26th, 2024]
- ANRO Investors Have Opportunity to Join Alto Neuroscience, Inc. Fraud Investigation with the Schall Law Firm - Business Wire - October 26th, 2024 [October 26th, 2024]
- Youth Face Rising Risks of Harassment and Exploitation in the Metaverse - Neuroscience News - October 26th, 2024 [October 26th, 2024]
- Exercise During Chemotherapy Boosts Cognitive Function - Neuroscience News - October 26th, 2024 [October 26th, 2024]
- Removing Pre-Bed Screen Time Improves Toddler Sleep - Neuroscience News - October 26th, 2024 [October 26th, 2024]
- Bright Minds Biosciences and Firefly Neuroscience to Collaborate After the BREAKTHROUGH Study: A Phase 2 Trial of BMB-101 in Absence Epilepsy and... - October 26th, 2024 [October 26th, 2024]
- How Visual Clutter Disrupts Information Flow in the Brain - Neuroscience News - October 26th, 2024 [October 26th, 2024]
- Menopausal Hormone Therapys Effects on Brain Health - Neuroscience News - October 26th, 2024 [October 26th, 2024]
- After-hours movers: McDonald's, Starbucks, Seagate, Alto Neuroscience and more - StreetInsider.com - October 26th, 2024 [October 26th, 2024]
- Alto Neuroscience Reports Topline Results from a Phase 2b Trial Evaluating ALTO-100 as a Treatment for Major Depressive Disorder - StockTitan - October 26th, 2024 [October 26th, 2024]
- Cristina Savin and Tim Vogels discuss how AI has shaped their neuroscience research - The Transmitter: Neuroscience News and Perspectives - October 13th, 2024 [October 13th, 2024]
- Should I stay (and eat) or should I go? How the brain balances hunger with competing drives - The Transmitter: Neuroscience News and Perspectives - October 13th, 2024 [October 13th, 2024]
- How neuroscience comics add KA-POW! to the field: Q&A with Kanaka Rajan - The Transmitter: Neuroscience News and Perspectives - October 13th, 2024 [October 13th, 2024]
- Neuroscience research sheds light on how psilocybin alters spatial awareness - PsyPost - October 13th, 2024 [October 13th, 2024]
- Newly Discovered Protein Complex Shapes Synapses and Mental Health - Neuroscience News - October 13th, 2024 [October 13th, 2024]
- The Neuroscience Behind Immersive Filmmaking - Raindance - October 13th, 2024 [October 13th, 2024]
- What are mechanisms? Unpacking the term is key to progress in neuroscience - The Transmitter: Neuroscience News and Perspectives - October 13th, 2024 [October 13th, 2024]
- Kentucky neuroscience doctor honored with national distinction - wnky.com - October 13th, 2024 [October 13th, 2024]
- Cell X Technologies and Aspen Neuroscience collaborate to address throughput and scalability in manufacturing automation to facilitate iPSC cell... - October 13th, 2024 [October 13th, 2024]
- Tracking Daily Habits Lasting Effects on the Brain - Neuroscience News - October 13th, 2024 [October 13th, 2024]
- Dak Prescott Was Silent After Hearing It From a Teammate. Its a Lesson in Emotional Intelligence (Backed By Neuroscience) - Inc. - October 13th, 2024 [October 13th, 2024]
- Helping Kids Fact-Check in the Age of Misinformation - Neuroscience News - October 13th, 2024 [October 13th, 2024]
- Study Links Calorie Restriction to Longevity - Neuroscience News - October 13th, 2024 [October 13th, 2024]
- A Princeton Professor Walks into a Neuroscience Meeting -- Many Years Later It Leads to a Nobel Prize in Physics - TAPinto.net - October 13th, 2024 [October 13th, 2024]
- Try these neuroscience-backed tactics to train your brain to make better decisions - Fast Company - October 2nd, 2024 [October 2nd, 2024]
- Tips to navigate SfN as a trainee - The Transmitter: Neuroscience News and Perspectives - October 2nd, 2024 [October 2nd, 2024]
- Neuroscience Says This 10-Minute Brain Exercise Will Make You Mentally Sharper and Keep You Focused All Day - Inc. - October 2nd, 2024 [October 2nd, 2024]
- Successful people do this 1 thing to be 'happier, more productive, less stressed' at work, says CEO and neuroscience researcher - CNBC - October 2nd, 2024 [October 2nd, 2024]
- Utilizing the Power of Neuroscience, Isabella Kensington May Have Cracked the Code Between Music and Healing - AOL - October 2nd, 2024 [October 2nd, 2024]
- Steve Jobs swore the 10-minute rule made him smarter. Modern neuroscience is discovering he was right - The Star Online - October 2nd, 2024 [October 2nd, 2024]