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Hot water immersion-based adjuvant therapy for aging-associated diseases and Lifespan extension: Hot water immersion (at 39C for 1 hour) increases NMN/NAD levels, decreases interaction of DBC1 with PARP1, increases PARP1 activity, promotes DNA repair, augments tolerance against radiation, cancer and aging, via down-regulation of its target gene, 3/November/2018, 11.45 pm

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Introduction: What they say

A study from Department of Genetics, Paul F. Glenn Center for the Biology of Aging, Harvard Medical School, Boston, MA, USA; and Department of Pharmacology, School of Medical Sciences, The University of New South Wales, Sydney, New South Wales 2052, Australia shows that “A conserved NAD+ binding pocket that regulates protein-protein interactions during aging.” This research paper was published, in the 24 March 2017 issue of the journal “Science [One of the best research journals in Science with an I.F of 34+], by Prof. David A. Sinclair, Jun Li and others.


What we say:

On the foundation of this interesting finding, Dr L Boominathan PhD, Director-cum-chief Scientist of GBMD, reports that: Hot water immersion-based adjuvant therapy for aging-associated diseases and Lifespan extension: Hot water immersion (at 39C for 1 hour) increases NMN/NAD levels, decreases interaction of DBC1 with PARP1, increases PARP1 activity, promotes DNA repair, augments tolerance against radiation, cancer and aging, via down-regulation of its target gene


What is known?

Prof. David A. Sinclair’s research team has recently shown that: (a) increased levels of NAD+ (found in non-aged tissues) inhibits the interaction the between DBC1 (deleted in breast cancer 1) and PARP1 [poly(adenosine diphosphate–ribose) polymerase]; and promotes DNA repair; (b) decreased levels of NAD+ (found in aged tissues) promotes the interaction between DBC1 and PARP1 and inhibits DNA repair; (c) aged cells/tissues that are low in NAD+ are radiation-sensitive, cancer-prone and prone to accelerated aging; and (d) aging-associated diseases can be reversed by increasing the concentration of NAD+ in aging tissues, suggesting that aging-associated diseases, in part, can be reversed by NAD+ supplementation in older animals.


From research findings to therapeutic opportunity:

This study suggests, for the first time, a Hot water immersion-based therapy for both aging-associated diseases; and life-span extension. Hot water immersion (at 39C for 1 hour), by increasing the expression of its target gene, it may increase the levels of NAMPT and NMN/NAD+. Thereby, it may: (1) increase plasma NMN levels and tissue NAD+ availability; (2) inhibit the interaction between DBC1 and PARP1; (3) augment PARP1’s DNA repair activity; (4) protect against radiation; (5) protect against cancer; and (6) prevent age-associated gene expression pattern and accelerated ageing. Thus, Hot water immersion therapy may be used to suppress age-associated overall physiological decline and improve health/lifespan.[easy_payment currency=”USD”]

Figure1. Hot water immersion therapy may act as an anti-aging and a longevity-promoting agent. Hot water immersion therapy, by increasing NAD+ levels, may suppress aging-associated overall physiological decline, aging-associated diseases and improve health/lifespan

Figure 2. The chemical structure of 15deoxyΔ(12,14)prostaglandin J2 (15d-PGJ2)


Details of the research findings: 

Idea Proposed/Formulated (with experimental evidence) by: Dr L Boominathan Ph.D.

Terms & Conditions apply http://genomediscovery.org/registration/terms-and-conditions/

Undisclosed mechanistic information: How does Hot water immersion therapy increase the levels of NMN/NAD and promote DNA repair activity?

Amount: $300#

* Research cooperation

For purchase and payment details, you may reach us at info@genomediscovery.org


References:

Citation: Boominathan, L., Hot water immersion-based adjuvant therapy for aging-associated diseases and Lifespan extension: Hot water immersion (at 39C for 1 hour) increases NMN/NAD levels, decreases interaction of DBC1 with PARP1, increases PARP1 activity, promotes DNA repair, augments tolerance against radiation, cancer and aging, via down-regulation of its target gene, 3/November/2018, 11.45 pm, Genome-2-BioMedicine Discovery center (GBMD), http://genomediscovery.org

Web: http://genomediscovery.org or http://newbioideas.com

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