Max Myakishev-Rempel scite author profile

The naked mole-rat displays exceptional longevity, with a maximum lifespan exceeding 30 years1–3. This is the longest reported lifespan for a rodent species and is especially striking considering the small body mass of the naked mole-rat. In comparison, a similarly sized house mouse has a maximum lifespan of 4 years4,5. In addition to their longevity, naked mole-rats show an unusual resistance to cancer. Multi-year observations of large naked mole-rat colonies did not detect a single incidence of cancer2,6. Here we identify a mechanism responsible for the naked mole-rat’s cancer resistance. We found that naked mole-rat fibroblasts secrete extremely high molecular weight hyaluronan (HA), which is over five times larger than human or mouse HA. This high molecular weight HA accumulates abundantly in naked mole rat tissues due to the decreased activity of HA-degrading enzymes and a unique sequence of hyaluronan synthase 2 (HAS2). Furthermore, the naked mole-rat cells are more sensitive to HA signaling, as the naked mole rat cells have a higher affinity to HA than the mouse or human cells. Perturbation of the signaling pathways sufficient for malignant transformation of mouse fibroblasts fails to transform naked mole-rat cells. However, once high molecular weight HA is removed by either knocking down HAS2 or overexpressing the HA-degrading enzyme, Hyal2, naked mole-rat cells become susceptible to malignant transformation and readily form tumors in mice. We speculate that naked mole-rats have evolved a higher concentration of HA in the skin to provide skin elasticity needed for life in underground tunnels. This trait may have then been co-opted to provide cancer resistance and longevity to this species.

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A Preliminary Study of the Safety of Red Light Phototherapy of Tissues Harboring Cancer

Myakishev-Rempel

Stadler

Brondon

et al. 2012

Photomedicine and Laser Surgery

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Optogenetic regulation of transcription

et al. 2018

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Optogenetics has become widely recognized for its success in real-time control of brain neurons by utilizing non-mammalian photosensitive proteins to open or close membrane channels. Here we review a less well known type of optogenetic constructs that employs photosensitive proteins to transduce the signal to regulate gene transcription, and its possible use in medicine. One of the problems with existing gene therapies is that they could remain active indefinitely while not allowing regulated transgene production on demand. Optogenetic regulation of transcription (ORT) could potentially be used to regulate the production of a biological drug in situ, by repeatedly applying light to the tissue, and inducing expression of therapeutic transgenes when needed. Red and near infrared wavelengths, which are capable of penetration into tissues, have potential for therapeutic applications. Existing ORT systems are reviewed herein with these considerations in mind.

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On The Existence of The DNA Resonance Code and Its Possible Mechanistic Connection to The Neural Code

Savelyev¹,

Zyryanova²,

Polesskaya³

et al. 2019

Neuroquantology

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The role of Alu-derived RNAs in Alzheimer’s and other neurodegenerative conditions

et al. 2018

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On possible role of DNA electrodynamics in chromatin regulation

Polesskaya

Guschin²,

Кондратьев³

et al. 2018

Progress in Biophysics and Molecular Biology

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Centrosome as a micro-electronic generator in live cell

Nygren

Adelman²,

Myakishev-Rempel

et al. 2020

Biosystems

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Evidence for DNA resonance signaling via longitudinal hydrogen bonds

Savelev

Myakishev-Rempel

2020

Progress in Biophysics and Molecular Biology

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