Investigation of the Formation of Squalene Oligomers Exposed to Ultraviolet Light and Changes in the Exposed Squalene as a Potential Skin Model

Zecchini, Matteo; Lucas, Robert A.; Robertson, Cameron; Coban, Tomris; Thatti, Ravtej; Gresley, Adam Le

doi:10.3390/molecules27113481

Cited by 3 publications

(3 citation statements)

References 11 publications

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“…The 14 components can be classified as 2 ketones, 5 aldehydes, 2 epoxides, and 5 alcohols, among which 1–6 were volatile products, with their retention indices shown in Supporting Information, Table S2, while 7–14 were nonvolatile products. Based on the qualitative analysis of products, the formation of thermal decomposition products of squalene and high molecular weight products may have been due to the free radical-catalyzed polymerization of squalene . Previous literature utilized squalene thermal degradation to identify a total of 8 products but characterizing only the higher molecular weight ones.…”

Section: Resultsmentioning

confidence: 99%

“…Based on the qualitative analysis of products, the formation of thermal decomposition products of squalene and high molecular weight products may have been due to the free radical-catalyzed polymerization of squalene. 42 Previous literature 15 utilized squalene thermal degradation to identify a total of 8 products but characterizing only the higher molecular weight ones.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

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Kinetics of Squalene Quenching Singlet Oxygen and the Thermal Degradation Products Identification

Yao,

Zheng,

Dai

et al. 2024

J. Agric. Food Chem.

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Squalene has been proven to possess various bioactive functions that are widely present in vegetable oils. A more comprehensive understanding of the reaction behavior of squalene under oxidative conditions was achieved by studying its antioxidant capacity and thermal degradation products. The total singlet oxygen quenching rate constant (k r + k q ) of squalene was 3.8 × 10 7 M −1 s −1 , and both physical and chemical quenching mechanisms equally contribute to the overall singlet oxygen quenching. Fourteen degradation products of squalene were identified at 180 °C by using gas chromatography−mass spectrometry (GC-MS). Combining with DFT calculations, the thermal degradation pathway of squalene was proposed: the aldehydes, ketones, and alcohols, and epoxy compounds were formed by the homolytic cleavage of squalene hydroperoxides to form alkoxy radicals, followed by β-scission of the alkoxyl radicals at adjacent C−C bonds or intramolecular cyclization.

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Section: Resultsmentioning

confidence: 99%

Section: ■ Results and Discussionmentioning

confidence: 99%

Kinetics of Squalene Quenching Singlet Oxygen and the Thermal Degradation Products Identification

Yao,

Zheng,

Dai

et al. 2024

J. Agric. Food Chem.

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“…The main porphyrin identified in patients with acne is coproporphyrin III, which is present in large amounts in acne lesions, and it is responsible for the inflammatory process [14]. In addition, solar radiation exposure can aggravate skin condition [15]. Squalene peroxide can induce an inflammatory response of keratinocytes through the activation of LOX, a lipoxygenase enzyme capable of producing conjugated hydroperoxides through the oxidation of polyunsaturated fatty acids.…”

Section: Introductionmentioning

confidence: 99%

Squalene Peroxidation and Biophysical Parameters in Acne-Prone Skin: A Pilot “In Vivo” Study

Condrò,

Sciortino,

Perugini

2023

Pharmaceuticals

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Nowadays, acne vulgaris therapies are often unsuccessful. One of the responsible factors for the formation of comedones and inflammatory lesions could be the peroxidation of squalene, a hydrocarbon representing one of the major components of human sebum. This peroxidation is increased by solar irradiation. The purpose of this work was to set up an in vivo method for the extraction and quantification of squalene from acne skin and to correlate the results with biophysical skin parameters such as sebum amount, protein content and TEWL. Healthy volunteers were used as control. The results obtained demonstrated that acne-prone skin had a major quantity of squalene, and, in the stratum corneum area, its peroxide form is present. Moreover, Spearman’s rank correlation showed a positive correlation between sebum content and peroxide squalene and between porphyrin intensity and peroxide squalene.

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Synergistic effect of thermal oxygen and UV aging on natural rubber

et al. 2023

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The oxidation of natural rubber (NR) leads to a decrease in mechanical properties, even resulting in failure of NR products. Many studies focusing on this single factor have failed to fully elucidate the impact of tropical island environment on NR properties. Based on this concern, the synergistic effect of thermal oxygen and ultraviolet (UV) aging on NR was systematically studied. The results revealed that thermal oxygenation can promote UV aging, which leads to the appearance of surface cracks and deepening of color. With the extension of aging time, the mechanical properties of NR correspondingly decreased. Besides, to deeply understand the mechanism of the synergistic effect of thermal oxygen and UV aging on NR, we selected squalene to simulate and analyze the molecular structure changes in NR. Based on these results, a possible synergistic effect of thermal oxygen and UV aging mechanisms on NR could be proposed.

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Investigation of the Formation of Squalene Oligomers Exposed to Ultraviolet Light and Changes in the Exposed Squalene as a Potential Skin Model

Cited by 3 publications

References 11 publications

Kinetics of Squalene Quenching Singlet Oxygen and the Thermal Degradation Products Identification

Kinetics of Squalene Quenching Singlet Oxygen and the Thermal Degradation Products Identification

Squalene Peroxidation and Biophysical Parameters in Acne-Prone Skin: A Pilot “In Vivo” Study

Synergistic effect of thermal oxygen and UV aging on natural rubber

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