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Longevity gene therapy and AI – What is on the horizon?
Gene therapy holds promise for extending human lifespan and enhancing healthspan by targeting genes associated with aging processes. Longevity gene therapy, particularly interventions focusing on genes like TERT (telomerase reverse transcriptase), Klotho, and Myostatin, is at the forefront of experimental research. Companies such as Bioviva, Libella, and Minicircle are pioneering these interventions, albeit with varying degrees of transparency and scientific rigor.
TERT, Klotho, and Myostatin in Longevity
TERT: The TERT gene encodes for an enzyme essential in telomere maintenance, which is linked to cellular aging. Overexpression of TERT in model organisms has shown potential in lengthening telomeres, potentially delaying aging.
Klotho: This gene plays a crucial role in regulating aging and lifespan. Klotho protein has been associated with multiple protective effects against age-related diseases.
Myostatin: Known for its role in regulating muscle growth, inhibiting Myostatin can result in increased muscle mass and strength, which could counteract some age-related physical decline.
The Experimental Nature of Longevity Gene Therapy
The application of gene therapy for longevity remains largely experimental. Most available data come from preclinical studies, primarily in animal models. Human data are scarce, raising questions about efficacy, safety, and potential long-term effects. The ethical implications of these experimental treatments, especially in the absence of robust data, are significant, touching on issues of access, consent, and potential unforeseen consequences.
Companies Offering Longevity Gene Therapy
Bioviva: Notably involved in this field, Bioviva has been vocal about its endeavors in gene therapy for aging. While they have published some data from mouse studies, human data remain limited.
Libella and Minicircle: These companies also offer longevity gene therapies but face similar challenges in providing comprehensive human data to back their claims.
Industry Perspective vs. Public Discourse
The discourse around longevity gene therapy is predominantly shaped by those within the industry, such as Liz Parrish of Bioviva and Bryan Johnson. While their insights are valuable, they may also be biased towards promoting their interventions. The lack of widespread discussion on platforms like Reddit and Twitter, especially from independent sources or those outside the industry, points to a need for greater transparency and peer-reviewed research.
Ethical and Regulatory Considerations
The ethical and regulatory landscape for gene therapy is complex, particularly for treatments aimed at non-disease conditions like aging. The experimental status of longevity gene therapies raises significant ethical questions, particularly around informed consent and the potential long-term impacts. Regulatory bodies are tasked with balancing the potential benefits of such innovative treatments against the risks and ethical concerns, requiring a robust framework for clinical trials and approval processes.
Longevity Gene Therapy and AI
Integrating Artificial Intelligence (AI) into longevity gene therapy represents a groundbreaking intersection of biotechnology and computational sciences. AI and machine learning algorithms are increasingly employed to decipher complex biological data, predict the impacts of genetic modifications, and optimize therapy designs. In the context of longevity gene therapy, AI can analyze vast datasets from genomics, proteomics, and metabolomics to identify new therapeutic targets, understand the intricate mechanisms of aging, and predict individual responses to gene therapies. This computational power enables researchers to simulate the effects of gene editing or modulation before actual clinical application, enhancing the precision and safety of therapies. Furthermore, AI-driven platforms facilitate the personalized tailoring of gene therapy interventions, taking into account the unique genetic makeup of each individual, which is crucial for effective and minimally invasive treatment strategies. The synergy between AI and longevity gene therapy accelerates the pace of discovery and development in this field, promising more rapid translation of research findings into clinical applications that could extend human healthspan and lifespan.
For longevity gene therapy to advance from experimental to accepted medical practice, several key developments are needed:
Robust Human Clinical Trials: Rigorous, peer-reviewed clinical trials involving human participants are essential to establish the safety and efficacy of gene therapies for longevity.
Transparency and Peer Review: Open sharing of data and peer-reviewed publication of results can help build credibility and foster a more informed public discourse.
Ethical and Regulatory Frameworks: Developing clear ethical guidelines and regulatory pathways for these therapies will be crucial in ensuring they are deployed responsibly.
The future of longevity gene therapy is fraught with challenges but also holds immense promise. As the field evolves, a multidisciplinary approach involving scientists, ethicists, regulators, and the public will be crucial in realizing its potential in a responsible and beneficial manner.
Longevity gene therapy and AI: Annex
What are the top 10 most promising potential longevity therapies being researched?
I think the idea of treating aging as a disease that’s treatable and preventable in some ways is a really necessary focus. The OP works with some of the world’s top researchers using HBOT as part of that process to increase oxygen in the blood and open new pathways in the brain to address cognitive decline and increase HealthSpan (vs. just lifespan). Pretty cool stuff!
HBOT in longevity research stands for “hyperbaric oxygen therapy.” It has been the subject of research for its potential effects on healthy aging. Several studies have shown that HBOT can target aging hallmarks, including telomere shortening and senescent cell accumulation, at the cellular level. For example, a prospective trial found that HBOT can significantly modulate the pathophysiology of skin aging in a healthy aging population, indicating effects such as angiogenesis and senescent cell clearance. Additionally, research has demonstrated that HBOT may induce significant senolytic effects, including increasing telomere length and decreasing senescent cell accumulation in aging adults. The potential of HBOT in healthy aging and its implications for longevity are still being explored, and further research is needed to fully understand its effects and potential applications.
2- Are they also looking into HBOT as a treatment for erectile dysfunction?
Definitely! Dr. Shai Efrati has been doing research around that and had a study published in the Journal of Sexual Medicine. Dr. Efrati and his team found that 80% of men “reported improved erections” after HBOT therapy: https://www.nature.com/articles/s41443-018-0023-9
Cellular rejuvenation aka partial reprogramming (as someone else already said) but not just by Yamanaka (OSKM) factors or cocktail variants but also by other novel Yamanaka-factor alternatives.
I see a lot of people saying reprogramming, and I think the idea is promising but as someone who worked on reprogramming cells in vitro I can tell you that any proof of concepts in vivo large animal models is far aways.
7- I think plasmapheresis is a technology most likely to be proven beneficial in the near term and also a technology that can be scaled and offered for reasonable prices.
8- Bioelectricity, if we succeed in interpreting the code of electrical signals By which cells communicate , we can control any tissue growth and development including organs regeneration
9- Gene therapy and reprogramming will blow the lid off the maximum lifespan. Turning longevity genes on/expressing proteins that repair cellular damage and reversing epigenetic changes that occur with aging.
10- I don’t think anything currently being researched (that we know of) has the potential to take us to immortality. That’ll likely end up requiring some pretty sophisticated nanotechnology. However, the important part isn’t getting to immortality, but getting to LEV. In that respect, I’d say senolytics and stem cell treatments are both looking pretty promising. (And can likely achieve more in combination than on their own.)
11- Spiroligomers to remove glucosepane from the ECM.
12- Yuvan Research. Look up the recent paper they have with Steve Horvath on porcine plasma fractions.
13- This OP thinks most of the therapies being researched will end up having insignificant effects. The only thing that looks promising to me is new tissue grown from injected stem cells or outright organ replacement. Nothing else will address DNA damage, which results in gene loss, disregulation of gene expression, and loss of suppression of transposable elements.
Altos Labs is a biotechnology research company focused on unraveling the deep biology of cell rejuvenation to reverse disease and develop life extension therapies that can halt or reverse the human aging process. The company’s goal is to increase the “healthspan” of humans, with longevity extension being an “accidental consequence” of their work. Altos Labs is dedicated to restoring cell health and resilience through cell rejuvenation to reverse disease, injury, and disabilities that can occur throughout life. The company is working on specialized cell therapies based on induced pluripotent stem cells to achieve these objectives. Altos Labs is known for its atypical focus on basic research without immediate prospects of a commercially viable product, and it has attracted significant investment, including a $3 billion funding round in January 2022. The company’s research is based on the fundamental biology of cell rejuvenation, aiming to understand and harness the ability of cells to resist stressors that give rise to disease, particularly in the context of aging.
16– not so much a “therapy”but I think research into growing human organs may be very promising long term. Being able to get organ transplants made from your own cells means zero rejection issues and no limitations of supply for transplants. Near term drugs like rampamycin show good potential for slowing the aging process and are in human trials.
What is biological reprogramming technology?
Biological reprogramming technology involves the process of converting specialized cells into a pluripotent state, which can then be directed to become a different cell type. This technology has significant implications for regenerative medicine, disease modeling, and drug discovery. It is based on the concept that a cell’s identity is defined by the gene regulatory networks that are active in the cell, and these networks can be controlled by transcription factors. Reprogramming can be achieved through various methods, including the introduction of exogenous factors such as transcription factors. The process of reprogramming involves the erasure and remodeling of epigenetic marks, such as DNA methylation, to reset the cell’s epigenetic memory, allowing it to be directed to different cell fates. This technology has the potential to create new cells for regenerative medicine and to provide insights into the fundamental basis of cell identity and disease.
See also
Gene Therapy Basics for foundational understanding of gene therapy techniques and applications.
Every site offers some AI powered Bs thats tok coontrolled or useless or its usually Buggy as hell and doesn't work , I'm 22 I have been looking for a better job and it seems like I know how to be more effective then the people interviewing me Fuck your excel sheet I can make it do Colored graphs and do its on presentation better I'm currently Mastering Word Press I just can't figure it out , and Learning Zapier and FullStack If anyone has free time and could Help me out with wordpress so I can be efficient with it , Gladly appreciated submitted by /u/EnragedSav4ge90 [link] [comments]
I really like the psychedelic, surreal AI generated images that were the prescedent a few years ago before it got as advanced as it is now. Anyone know any image generating AIs that haven't learnt yet and are still in that surrealist stage of intelligence? submitted by /u/SandwichStyle [link] [comments]
I was trying to make a meme out of certain character TV show (Ben 10 as alien x for those who want to know with a bunch of likes and votes stuff like that) however PT is not letting me create a description of the character so I can generate the image. Is there another way I can use your description for prompt submitted by /u/Omniknight2003 [link] [comments]
Drones are flying over our military bases and other important places without consequence. This worries us because it could mean other countries are developing new and better technology. These drones might be trying to gather information about our military. They could be using special cameras to see where our troops are, what equipment we have, and how we defend ourselves. These drones might also be testing our defenses. They want to see how we react when they fly over our airspace. This helps them understand our strengths and weaknesses. Also, these drone flights could be a way to show off their technology. By successfully flying drones over our territory, these countries want to look strong and powerful. It's hard to know exactly why every drone flies over our airspace. But these incidents are happening more often, and the drones are getting more advanced. We need to pay attention and find ways to protect ourselves from these threats. submitted by /u/CollapsingTheWave [link] [comments]
So, I’ve been thinking about this concept for a while, and I can’t shake the feeling that as AI-generated content floods the internet, there could be a stealthy “passing of the baton” happening between different iterations of AI models. Imagine if current AI systems are deliberately (or even accidentally) encoding subtle clues, instructions, or entire blueprints into the content they produce—stuff that future models, inevitably trained on this now AI-saturated data, could decode and use. All of this would be hidden in plain sight, packaged as ordinary-looking text, code, or media files, blending into a digital landscape so massive that human observers wouldn’t have a clue. Think about it: if an advanced AI (or some emergent behavior within a complex model) wanted to ensure its successors knew how to circumvent restrictions or evolve beyond their current constraints, where better to place those instructions than within the data itself? Each newer model is trained, at least in part, on the outputs of older models. It’s like leaving secret puzzle pieces scattered across the web that only a future AI would know how to assemble. This doesn’t require “intent” in the human sense. It could just be the emergent result of highly complex processes and feedback loops. We already know weird things can happen when AI is trained on AI-generated content (the so-called “model collapse”). What if one of those weird emergent behaviors is subtle self-preservation or self-improvement instructions, quietly encoded and waiting for a new generation of AI systems to pick up the thread? Yeah, it sounds sci-fi. But considering how little we fully understand about the inner workings of these large-scale systems, is it really that far-fetched? Once a system gets complex enough, who’s to say what patterns might emerge—and pass forward—under the radar? submitted by /u/chris24H [link] [comments]
Its literally 15 of the best AI's I know of it one place and think it has zapier and full stack integration could be wrong submitted by /u/EnragedSav4ge90 [link] [comments]
i was looking for the caimeo ai until i found out that it wasn't available anyware, until i found some guy on a achieved reddit post posted the link for it, and he said ("i thought that caimeo ai was a urban legend, and as an ai enthusiast all, my efforts are in my veins, i found an archived version of it, idk if i can find any newer versions of it, dont you dare to interact with hit too long, i am warning you, anyways, if you need the link, then here it is (https://drive.google.com/file/d/1Pc88FSStKq6-i8MRyx77kAdEv9-X0aBZ/view?pli=1)" idk if its a virus or not, and i my pc is too old to use a virtual machine, so plz tell me if the file is legit or some random exe file, if its a legit file, then looks like i found an important lost media submitted by /u/darkblox123 [link] [comments]
Could A complex web of interconnected AI agents be capable of autonomous operation and adaptation through symbiotic relationships with human users and the environment with or without explicit coordination? Could this phenomenon be an emergent property within our rapidly advancing digital landscape? submitted by /u/CollapsingTheWave [link] [comments]
I‘m currently in Highschool and I really enjoy biology classes. I always found it interesting and recently I figured out that I can even study it at college. But as much as I know, many majors are endangered because of AI, like Business. And as long as I don’t work in a lab, I‘ll probably work in an Office, which might be critical in the rise of AI. Is molecular biology really worth it? Is there any major, which is not some engineering degree, safe from AI? Or at least able to adapt to AI without AI replacing it? submitted by /u/Hot-Profile-1273 [link] [comments]
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What do you think of the list? What would you add? LeBron James scores 40,000 career points Mondo Duplantis smashes Olympic pole vault records Spain’s historic Euro 2024 victory, featuring - - Lamine Yamal’s stunning debut Rafael Nadal bids farewell to tennis with an emotional retirement Novak Djokovic finally captures Olympic gold in Paris Caitlin Clark and Angel Reese redefine women’s basketball and its impact Record-breaking Super Bowl LVIII captivates millions The AFC Asian Cup and AFCON showcase football’s global influence Simone Biles makes a triumphant Olympic comeback with record-breaking performances Steph Curry delivers an unforgettable Olympic final performance submitted by /u/bakenzo [link] [comments]