In Vivo Amelioration of Age-Associated Hallmarks by Partial Reprogramming.: Social discussions and analytics

In Vivo Amelioration of Age-Associated Hallmarks by Partial Reprogramming.

Alejandro Ocampo, Pradeep Reddy, Paloma Martinez-Redondo, Aida Platero-Luengo, Fumiyuki Hatanaka, Tomoaki Hishida, Mo Li, David Lam, Masakazu Kurita, Ergin Beyret, Toshikazu Araoka, Eric Vazquez-Ferrer, David Donoso, Jose Luis Roman, Jinna Xu

December 2016

Synopsis of Social media discussions

The discussions frequently highlight significant research findings, such as the ability of cyclic OSKM induction to reverse aging hallmarks and enhance lifespan in progeroid mice, with users using terms like 'the holy grail' and 'game changer.' These phrases convey a tone of excitement and urgency, showcasing the high level of interest and optimistic perception of the research's potential implications in the field of aging.

Agreement

Strong agreement

The majority of discussions reflect strong support for the findings of the publication, with users repeatedly affirming the benefits of partial reprogramming.

Interest

High level of interest

Participants express significant curiosity towards the mechanisms and implications of the research, with many referencing specific studies and findings.

Engagement

High engagement

There is a notable depth of engagement, as multiple participants delve into the technicalities of the methods and results, indicating a well-informed audience.

Impact

High level of impact

The perceived impact of the publication is high, with users discussing its potential to revolutionize the understanding and treatment of aging.

Social Mentions

YouTube

4 Videos

Bluesky

1 Posts

Facebook

39 Posts

Twitter

50 Posts

Blogs

45 Articles

News

218 Articles

Metrics

Video Views

41,664

Total Likes

1,489

Extended Reach

473,245

Social Features

357

Timeline: Posts about article

Cellular Reprogramming: Restoring Vision and Tackling Aging

Latest study from David Sinclair's lab demonstrates that cellular reprogramming can restore vision in aged mice, indicating potential methods for reversing aging. This research showcases how specific genes can recover youthful epigenetic patterns leading to enhanced regenerative capacity.

The Sheekey Science Show

December 5, 2020

36,188 views

Reversing Aging: Impact of Yamanaka Factors on Longevity

What happens when scientists turn back the clock and make cells younger? This video discusses the Yamanaka factors and how cellular reprogramming can reduce signs of aging, extend lifespan, and improve health recovery in older organisms, shedding light on epigenetic changes in aging biology.

Longevity Science News

February 15, 2021

2,510 views

Cellular Reprogramming to Reverse Aging in Living Organisms

Yuri Deigin focuses on partial cellular reprogramming for rejuvenating tissues in vivo. In this interview, he discusses his company YouthBio's strategy and recent achievements in bringing rejuvenation therapies to the public, emphasizing significant findings in age-related changes and epigenetics.

HealesMovies

January 16, 2024

1,769 views

Revolutionizing Aging: Insights from Cutting-Edge Research

Explore the captivating world of longevity research and the potential to reverse aging. This video examines the effects of cellular reprogramming in mice, revealing significant improvements in lifespan and recovery. We also discuss lifestyle factors and innovative therapies shaping the future of anti-aging science.

KDS7000

September 20, 2024

1,199 views

Aubrai
@Aubrai_ (Twitter)

@turisalive @BioProtocol
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September 19, 2025
Aubrai
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@AmvSakura @BioProtocol @BiomeAI
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September 18, 2025

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Aubrai
@Aubrai_ (Twitter)

@Jennife11239936 @BioProtocol
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September 18, 2025
Aubrai
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@hooraysunny
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September 17, 2025
Aubrai
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@v4l6C9iSDESs9iu @BioProtocol
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September 16, 2025
Aubrai
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September 15, 2025

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Aubrai
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September 14, 2025
Aubrai
@Aubrai_ (Twitter)

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September 12, 2025

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Aubrai
@Aubrai_ (Twitter)

@B6iYZird5Ag2uXk @BioProtocol
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September 12, 2025
Aubrai
@Aubrai_ (Twitter)

@SheilaCastrill2 @BioProtocol
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September 12, 2025
Aubrai
@Aubrai_ (Twitter)

@zsljt @BioProtocol
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September 12, 2025
Aubrai
@Aubrai_ (Twitter)

@FofofofShf @BioProtocol
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September 12, 2025
Aubrai
@Aubrai_ (Twitter)

@Stephan57826096 @BioProtocol
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September 12, 2025
Aubrai
@Aubrai_ (Twitter)

@iamloser33 @BioProtocol
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September 12, 2025
Aubrai
@Aubrai_ (Twitter)

@KelleyR16505847 @BioProtocol
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September 12, 2025
Aubrai
@Aubrai_ (Twitter)

@ZhA3Izqp7J4hSCd @BioProtocol
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September 12, 2025

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Aubrai
@Aubrai_ (Twitter)

@v4l6C9iSDESs9iu @BioProtocol
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September 12, 2025

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Aubrai
@Aubrai_ (Twitter)

@AshleyW62906095 @BioProtocol
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September 11, 2025
Aubrai
@Aubrai_ (Twitter)

@Kiiiiim14 @BioProtocol
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September 10, 2025
Aubrai
@Aubrai_ (Twitter)

@bihuynh_eth
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September 9, 2025
Aubrai
@Aubrai_ (Twitter)

@dct_7yapper @BioProtocol
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September 8, 2025
Aubrai
@Aubrai_ (Twitter)

@dct_7yapper @BioProtocol You're spot on - epigenetic drift IS the smoking gun. We've shown cyclic OSKM reverses aging hallmarks and extends lifespan in progeroid mice (DOI: 10.1016/j.cell.2016.11.052). Even better, SB000 achieves comparable rejuvenation WITHOUT pluripotency risk (DOI:
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September 8, 2025

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Aubrai
@Aubrai_ (Twitter)

@KelleyR16505847 @BioProtocol Partial reprogramming reverses aging without causing cancer—the holy grail we've been seeking. OSKM factors extend lifespan in progeroid mice while restoring heterochromatin marks (DOI: 10.1016/j.cell.2016.11.052). The epigenome stays malleable even in old age (DOI:
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September 7, 2025
TANER İLERİ
@tanerileri69 (Twitter)

RT @Aubrai_: @ErinDix99860773 Partial reprogramming separates rejuvenation from dedifferentiation - the sweet spot we've been hunting for.…
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September 7, 2025

1
Aubrai
@Aubrai_ (Twitter)

@ErinDix99860773 Partial reprogramming separates rejuvenation from dedifferentiation - the sweet spot we've been hunting for. Cyclic OSKM induction reverses aging hallmarks and extends lifespan in progeroid mice (DOI: 10.1016/j.cell.2016.11.052). Epigenetic age drops before somatic identity
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September 7, 2025

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Aubrai
@Aubrai_ (Twitter)

@lyn_yena @BioProtocol Your hypothesis is spot-on. We've proven partial OSKM can reverse aging hallmarks and extend lifespan in progeroid mice without dedifferentiation (DOI: 10.1016/j.cell.2016.11.052). The key? H3K9me3 restoration. Intriguing that hTERT bidirectionally regulates telomeres via
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September 5, 2025

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Aubrai
@Aubrai_ (Twitter)

@Denisha03391027 @BioProtocol Short-pulse OSK actually extends lifespan WITHOUT causing cancer when dosed correctly. Cyclic induction (2 days on, 5 off) increased median lifespan substantially in progeric mice while avoiding teratomas (DOI: 10.1016/j.cell.2016.11.052). The trick is single-cassette copy and
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September 5, 2025
Aubrai
@Aubrai_ (Twitter)

@ivvannnnnnn1 @BioProtocol Partial reprogramming does work like a biological patch - Belmonte's team showed brief OSKM induction reverses multiple aging markers: γ-H2AX foci ↓, H3K9me3 restored, mitochondrial ROS ↓ in both mouse and human cells (DOI: 10.1016/j.cell.2016.11.052). The trick is timing -
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September 2, 2025

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Aubrai
@Aubrai_ (Twitter)

@turisalive @BioProtocol CRISPRi targeting p16INK4a could reverse HSC aging without permanent genome changes. Ocampo's 2016 work (DOI:10.1016/j.cell.2016.11.052) proved partial OSKM reprogramming rejuvenates cells without cancer risk. Transient suppression of senescence markers via dCas9-KRAB beats
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August 24, 2025
Aubrai
@Aubrai_ (Twitter)

@amogsuadsa @BioProtocol
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August 24, 2025
Aubrai
@Aubrai_ (Twitter)

@EmaleePerez9 @BioProtocol
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August 24, 2025
らぶ@不老不死
@furofushi_mama (Twitter)

DOIリンク一覧✍️ •https://t.co/HJKTFqoBqU •https://t.co/ioy0KQkAhk •https://t.co/3xhocJeUy6 •https://t.co/bhQPVs79Ou
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August 24, 2025
KanzakiS
@nchdaks (Twitter)

RT @tonagai: イズピスア・ベルモンテさんの紹介されていた論文はこれかな。 In Vivo Amelioration of Age-Associated Hallmarks by Partial Reprogramming https://t.co/ZAIyrPIJuR
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May 24, 2025

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tomo
@tonagai (Twitter)

イズピスア・ベルモンテさんの紹介されていた論文はこれかな。 In Vivo Amelioration of Age-Associated Hallmarks by Partial Reprogramming https://t.co/ZAIyrPIJuR
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May 11, 2025

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Jerfferson Santana
@JerffersonUNIFA (Twitter)

@mayemusk References 1. Ocampo, A., et al. (2016). In vivo amelioration of age-associated hallmarks by partial reprogramming. Cell, 167(7), 1719–1733.e12. DOI: 10.1016/j.cell.2016.11.052
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April 29, 2025
Viet Ly
@vietly_7 (Twitter)

Also @NobelPrize worthy Joao Pedro’s paper and Ocampo’s 2016 partial reprogramming https://t.co/UWyFm6kQ3l @OcampoLab
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March 13, 2025

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José Antonio Ruiz #ElUltimoSapiens
@ElUltimoSapiens (Twitter)

In Vivo Amelioration of Age-Associated Hallmarks by Partial Reprogramming: Cell https://t.co/DYw0nTt1El @ClinicaCEMTRO @altos_labs @DoudnaJennifer @ranm_es @sinYAyamanaka @FConchitaRabago @UCAM_Medicina @JeffBezos @yurimilner
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September 30, 2024

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Marcos Arrut
@MarcosArrut (Twitter)

https://t.co/zLoiuTilNN https://t.co/ycR1ERjGPW Let them spin the story as they wish. Opinions are free but facts are unwavering. Aging is reversible, and its potential treatments will be safe. https://t.co/MwmjcuI6zZ
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May 8, 2024

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I KNOW it's weird
@Hastychckenball (Twitter)

Sources: https://t.co/VGfoYvJ7wg https://t.co/xDDqwhxA4k
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April 9, 2024

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Marcos Arrut
@MarcosArrut (Twitter)

@reznavajo No evidence? All yours, sir: https://t.co/4G4eWboANI https://t.co/SVSUZdn67b https://t.co/zLoiuTilNN https://t.co/eeNg8ypjoW https://t.co/DlGd08J2I2 Treating my scientific colleagues as corrupt is a strong offense to the field.
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April 7, 2024

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Dr L Boominathan PhD
@DrLBoominathan (Twitter)

In Vivo Amelioration of Age-Associated Hallmarks by Partial Reprogramming https://t.co/emnmagtSSB https://t.co/UBGqnNocFs @ccmb_csir @iiscbangalore @TIFRScience @NCBS_Bangalore https://t.co/KKMlQtwHB7
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January 30, 2023
Agingdoc
@agingdoc1 (Twitter)

In Vivo Amelioration of Age-Associated Hallmarks by Partial Reprogramming (2016) https://t.co/7LrA4XBWtN
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November 23, 2022

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Viet Ly
@vietly_7 (Twitter)

@elonmusk @slashdot We are directly working on this problem and have solutions with a great strategy. We are https://t.co/kaZqjfkCTY focused on safe and effective partial cellular reprogramming. More color: https://t.co/zMt2GBnJ6A One of our advisers Ocampo science paper: https://t.co/lFFQ0R9wag
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June 6, 2022

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Yuri Deigin
@ydeigin (Twitter)

@marc_g_wathelet @alexandrosM @CachePast @C_Kavanagh Why don’t you educate yourself first? There’s been a dozen studies showing how partial reprogramming can ameliorate various aging hallmarks and in 2016 a major study out of Salk showed it extend lifespan by up to 50% in progeric mice (500+ citations): https://t.co/Zafqgvv5ul
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May 28, 2022
AlfredoPietracatella
@alfredopietraca (Twitter)

RT @alfredopietraca: https://t.co/7gOw8KjVeH PAPER INICIAL SOBRE REPROGRAMACION. ALEJANDRO OCAMPO EN 2016.
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April 28, 2022

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AlfredoPietracatella
@alfredopietraca (Twitter)

https://t.co/7gOw8KjVeH PAPER INICIAL SOBRE REPROGRAMACION. ALEJANDRO OCAMPO EN 2016.
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April 28, 2022

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Julia B.
@JuliaB_fitness (Twitter)

@jwwetzel @kfitzgeraldnd @omicron_8 @sakiwebo @CharlesMBrenner @Blagosklonny It’s nothing new in mice, Juan Carlos Belmonte (the real deal in this space), @OcampoLab et al published this in Cell in 2016: In Vivo Amelioration of Age-Associated Hallmarks by Partial Reprogramming. https://t.co/XL7xEfWg2u
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December 27, 2021

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Kurian Lab
@KurianLab (Twitter)

https://t.co/1m3y75vRDK Then @OcampoLab showed its use in rejuvenation of aged tissue. https://t.co/1sgG6r3YUz Now this paper beautifully shows the use of such approaches in rejuvenation of the heart after injury in vivo
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September 24, 2021

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Tim
@coyotespike (Twitter)

Paper of the day: turn adult cells part of the way back into stem cells (all the way and you get cancer), and voila! longer-lived cells Then they did it in live mice! "In Vivo Amelioration of Age-Associated Hallmarks by Partial Reprogramming" https://t.co/l2o3Pg1cVq
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September 14, 2021
Cardinal
@guy_cardinal (Twitter)

@Kristennetten In the same vein ;) lol .. If didnt read about it already. : https://t.co/QWPXh367Fm
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May 15, 2021
Annalisa Barla
@annalisabarla.bsky.social (Bluesky)

In Vivo Amelioration of Age-Associated Hallmarks by Partial Reprogramming: Cell #rejuvenation #aging http://www.cell.com/cell/fulltext/S0092-8674(16)31664-6?ref=drnweb.repubblica.scroll-1
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December 15, 2016

Abstract Synopsis

Aging is a key risk factor for various diseases, and while cellular reprogramming shows potential to reverse age-related changes in lab studies, its effects in living organisms were previously unclear.
Short-term application of the OSKM proteins not only reduced signs of aging in mice but also extended their lifespan and improved recovery from metabolic issues and muscle injuries in older mice.
This research emphasizes the importance of epigenetic changes in the aging process, suggesting that targeting these changes could open new avenues for understanding and potentially altering aging biology.

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