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Many of the skin regenerating or rejuvenating treatments, like energy based devices in the doctors-office are based on the principle to cause controlled damage and therewith provocation of a skin rejuvenating repair response. One of the fascinating mechanisms behind laser "damage" is the heat shock response leading to increased production of regenerating heat shock proteins (HSPs). Heat shock proteins respond to heat stress, are crucial cellular defense mechanisms against stress (environmental and physiological), act as chaperones, aiding in protein folding, prevention of protein damage, cellular protection and repair. [1]
HEAT SHOCK PROTEINS AND OX-INFLAMMAGEING UV radiation and blue light cause oxidative stress and inflammation, and can overwhelm skin's own capacity to counteract the increased formation of reactive oxygen species (ROS) and inflammatory mediators. Chronic oxidative stress state and chronic low grade of inflammation are hallmarks of skin ageing and their combination can be called ox-inflammageing. Oxidative stress and inflammation alter cellular signal transduction pathways and thereby the expression of the ECM genes as well as the structure of the ECM proteins like collagen, fibronectin and elastin. Their reduced expression and increased degradation manifests eventually at the skin surface as wrinkles, loss of firmness, and elasticity. Heat shock proteins are chaperone proteins that facilitate the formation of the ECM and prevention of molecular oxidative damage or degradation and are classified based on their molecular weights.
STIMULATION OF REJUVENATING HEAT SHOCK PROTEINS Heat shock protein synthesis can be initiated not only by heat but also by many chemical and physical stimuli, such as heavy metals, amino acid analogues, oxidative stress, viral infection and UV and ionizing irradiation. [10] Laser Laser treatments have been shown to induce a heat shock response in the skin from epithelial cells to deeper connective tissues, leading to the production of heat shock proteins. This response is characterized by the temporary changes in cellular metabolism, release of growth factors, and increased cell proliferation and thus contribute to tissue regeneration and rejuvenation. [11] CBD It has been proven that a large number of genes belonging to the heat shock protein super-family were up-regulated following cannabidiol (CBD) treatment. [12] UV radiation Ultraviolet radiation (UV)‐induced cell death and sunburn cell formation can be inhibited by previous heat shock exposure and UV itself can induce HSP expression. However, levels of HSP-27 have been found to be elevated in sun‐protected aged skin indicating a link between HSP-27 expression and age‐dependent epidermal alterations. [13] I would recommend daily protection from UV radiation and blue light (or high energy visible light). Ultrasound Ultrasound exposure at different frequencies, intensities, and exposure times can induce HSP-72 expression. Higher ultrasound frequencies, such as 10 MHz, have been found to significantly increase HSP-72 levels. Additionally, increasing the temperature during ultrasound exposure has shown to enhance HSP-72 expression. Interestingly, ultrasound at 1 MHz was unable to induce HSP-72 significantly, while 10 MHz ultrasound induced HSP-72 after 5 minutes of exposure. [10] Radiofrequency Radiofrequency has been shown to increase HSP-70 and decrease melanin synthesis and tyrosinase activity. [14] RF-US treatment significantly increased levels of HSP47 proteins. [15] Red & near infra red light Although I've not seen much peer reviewed published evidence, red light and near infra red light therapy may release the HSPs in the skin if tissue reaches >42 - 45 degrees (even for 8 - 10 seconds). Nicotinamide Nicotinamide and its derivatives have been found to stimulate the expression of heat shock proteins, including HSP-27, HSP-47, HSP-70, and HSP-90 in the skin. These proteins play as mentioned before an essential role in collagen production, skin protection, skin health and rejuvenation. [6] NAD as nutrient interestingly has proven to tweak the epigenome by modulating DNMT1 enzymatic DNA methylation and cell differentiation. [16] In topical applications an ingredient called Dihydromyricetin also called Epicelline® has been successful in inhibiting DNMT1 enzyme activity biochemical assays. [17] Stimulation of heat shock proteins offers a promising and novel invasive, non invasive and topical approach for skin regeneration, rejuvenation and reduction of ox-inflammageing. Always consult a qualified healthcare professional or dermatologist to determine the most suitable approach for your particular skin condition and rejuvenation goals. Take care! Anne-Marie References
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