Remodelling of fibrillin-rich microfibrils by solar-simulated radiation: impact of skin ethnicity

Fibrillin-rich microfibrils (FRMs) constitute integral components of the dermal elastic fibre network with a distinctive ultrastructural 'beads-on-a-string' appearance that can be visualised using atomic force microscopy and characterised by measurement of their length and inter-bead perio...

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Veröffentlicht in:	Photochemical & photobiological sciences 2020-09, Vol.19 (9), p.116-1167
Hauptverfasser:	Langton, Abigail K, Hann, Mark, Costello, Patrick, Halai, Poonam, Griffiths, Christopher E. M, Sherratt, Michael J, Watson, Rachel E. B
Format:	Artikel
Sprache:	eng
Schlagworte:	Aging Atomic force microscopy Beads Biochemistry Biomaterials Biopsy Chemical composition Chemistry Damage accumulation Depletion Dermis Ethnic Groups Ethnicity Exposure Female Fibrillin Fibrillins - chemistry Fibrillins - metabolism Homeostasis Humans In vivo methods and tests Male Microfibrils Microfibrils - chemistry Microfibrils - metabolism Microscopy, Atomic Force Minority & ethnic groups Oxidation Periodicity Photon absorption Physical Chemistry Plant Sciences Radiation damage Skin Skin - metabolism Skin - radiation effects Skin Aging Ultrastructure Ultraviolet radiation Ultraviolet Rays Young Adult
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creator	Langton, Abigail K Hann, Mark Costello, Patrick Halai, Poonam Griffiths, Christopher E. M Sherratt, Michael J Watson, Rachel E. B
description	Fibrillin-rich microfibrils (FRMs) constitute integral components of the dermal elastic fibre network with a distinctive ultrastructural 'beads-on-a-string' appearance that can be visualised using atomic force microscopy and characterised by measurement of their length and inter-bead periodicity. Their deposition within the dermis in photoprotected skin appears to be contingent on skin ethnicity, and influences the ultrastructure of papillary - but not reticular - dermal FRMs. Truncation and depletion of FRMs at the dermal-epidermal junction of skin occurs early in photoageing in people with lightly pigmented skin; a process of accelerated skin ageing that arises due to chronic sun exposure. Accumulation of ultraviolet radiation (UVR)-induced damage, either by the action of enzymes, oxidation or direct photon absorption, results in FRM remodelling and changes to ultrastructure. In the current study, the direct effect of UVR exposure on FRM ultrastructure was assayed by isolating FRMs from the papillary and reticular dermis of photoprotected buttock skin of individuals of either black African or white Northern European ancestry and exposing them to solar-simulated radiation (SSR). Exposure to SSR resulted in significant reduction in inter-bead periodicity for reticular dermis-derived FRMs across both cohorts. In contrast, papillary dermal FRMs exhibited significantly increased inter-bead periodicity, with the magnitude of damage greater for African FRMs, as compared to Northern European FRMs. Our data suggest that FRMs of the dermis should be considered as two distinct populations that differentially accrue damage in response to SSR. Furthermore, papillary dermal FRMs derived from black African subjects show greater change following UVR challenge, when extracted from skin. Future studies should focus on understanding the consequences of UVR exposure in vivo , regardless of skin ethnicity, on the molecular composition of FRMs and how this UVR-induced remodelling may affect the role FRMs play in skin homeostasis. Cutaneous fibrillin-rich microfibrils (FRMs) should be considered as two distinct populations that differentially accrue damage in response to SSR. Furthermore, FRMs derived from black African skin show greater change following UVR challenge.
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Accumulation of ultraviolet radiation (UVR)-induced damage, either by the action of enzymes, oxidation or direct photon absorption, results in FRM remodelling and changes to ultrastructure. In the current study, the direct effect of UVR exposure on FRM ultrastructure was assayed by isolating FRMs from the papillary and reticular dermis of photoprotected buttock skin of individuals of either black African or white Northern European ancestry and exposing them to solar-simulated radiation (SSR). Exposure to SSR resulted in significant reduction in inter-bead periodicity for reticular dermis-derived FRMs across both cohorts. In contrast, papillary dermal FRMs exhibited significantly increased inter-bead periodicity, with the magnitude of damage greater for African FRMs, as compared to Northern European FRMs. Our data suggest that FRMs of the dermis should be considered as two distinct populations that differentially accrue damage in response to SSR. Furthermore, papillary dermal FRMs derived from black African subjects show greater change following UVR challenge, when extracted from skin. Future studies should focus on understanding the consequences of UVR exposure in vivo , regardless of skin ethnicity, on the molecular composition of FRMs and how this UVR-induced remodelling may affect the role FRMs play in skin homeostasis. Cutaneous fibrillin-rich microfibrils (FRMs) should be considered as two distinct populations that differentially accrue damage in response to SSR. 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M</creatorcontrib><creatorcontrib>Sherratt, Michael J</creatorcontrib><creatorcontrib>Watson, Rachel E. B</creatorcontrib><title>Remodelling of fibrillin-rich microfibrils by solar-simulated radiation: impact of skin ethnicity</title><title>Photochemical & photobiological sciences</title><addtitle>Photochem Photobiol Sci</addtitle><addtitle>Photochem Photobiol Sci</addtitle><description>Fibrillin-rich microfibrils (FRMs) constitute integral components of the dermal elastic fibre network with a distinctive ultrastructural 'beads-on-a-string' appearance that can be visualised using atomic force microscopy and characterised by measurement of their length and inter-bead periodicity. Their deposition within the dermis in photoprotected skin appears to be contingent on skin ethnicity, and influences the ultrastructure of papillary - but not reticular - dermal FRMs. Truncation and depletion of FRMs at the dermal-epidermal junction of skin occurs early in photoageing in people with lightly pigmented skin; a process of accelerated skin ageing that arises due to chronic sun exposure. Accumulation of ultraviolet radiation (UVR)-induced damage, either by the action of enzymes, oxidation or direct photon absorption, results in FRM remodelling and changes to ultrastructure. In the current study, the direct effect of UVR exposure on FRM ultrastructure was assayed by isolating FRMs from the papillary and reticular dermis of photoprotected buttock skin of individuals of either black African or white Northern European ancestry and exposing them to solar-simulated radiation (SSR). Exposure to SSR resulted in significant reduction in inter-bead periodicity for reticular dermis-derived FRMs across both cohorts. In contrast, papillary dermal FRMs exhibited significantly increased inter-bead periodicity, with the magnitude of damage greater for African FRMs, as compared to Northern European FRMs. Our data suggest that FRMs of the dermis should be considered as two distinct populations that differentially accrue damage in response to SSR. Furthermore, papillary dermal FRMs derived from black African subjects show greater change following UVR challenge, when extracted from skin. Future studies should focus on understanding the consequences of UVR exposure in vivo , regardless of skin ethnicity, on the molecular composition of FRMs and how this UVR-induced remodelling may affect the role FRMs play in skin homeostasis. Cutaneous fibrillin-rich microfibrils (FRMs) should be considered as two distinct populations that differentially accrue damage in response to SSR. Furthermore, FRMs derived from black African skin show greater change following UVR challenge.</description><subject>Aging</subject><subject>Atomic force microscopy</subject><subject>Beads</subject><subject>Biochemistry</subject><subject>Biomaterials</subject><subject>Biopsy</subject><subject>Chemical composition</subject><subject>Chemistry</subject><subject>Damage accumulation</subject><subject>Depletion</subject><subject>Dermis</subject><subject>Ethnic Groups</subject><subject>Ethnicity</subject><subject>Exposure</subject><subject>Female</subject><subject>Fibrillin</subject><subject>Fibrillins - chemistry</subject><subject>Fibrillins - metabolism</subject><subject>Homeostasis</subject><subject>Humans</subject><subject>In vivo methods and tests</subject><subject>Male</subject><subject>Microfibrils</subject><subject>Microfibrils - chemistry</subject><subject>Microfibrils - metabolism</subject><subject>Microscopy, Atomic Force</subject><subject>Minority & ethnic groups</subject><subject>Oxidation</subject><subject>Periodicity</subject><subject>Photon absorption</subject><subject>Physical Chemistry</subject><subject>Plant Sciences</subject><subject>Radiation damage</subject><subject>Skin</subject><subject>Skin - metabolism</subject><subject>Skin - radiation effects</subject><subject>Skin Aging</subject><subject>Ultrastructure</subject><subject>Ultraviolet radiation</subject><subject>Ultraviolet Rays</subject><subject>Young Adult</subject><issn>1474-905X</issn><issn>1474-9092</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2020</creationdate><recordtype>article</recordtype><sourceid>C6C</sourceid><sourceid>EIF</sourceid><recordid>eNp9kM1LwzAYh4Mobk4v3pWKF1GqaZo0rTcZfsFAEAVv5W2TbNn6ZdIe9t-b0bmhiKd8_B6e5P0hdBzg6wCHyY3ATYNxEMeLHTQMKKd-ghOyu9mzjwE6sHbuGEYjvo8GIYk4CQkdIniVZS1kUehq6tXKUzozenXyjc5nXqlzU_d31suWnq0LML7VZVdAK4VnQGhodV3derpsIG9XDrvQlSfbWaVz3S4P0Z6Cwsqj9TpC7w_3b-Mnf_Ly-Dy-m_g55aT1swxnEiKGkzhJOBcc8iwUCYOI81BKpliAE6kIycDNQTiDmCuugEcghcAQjtBF721M_dlJ26altrmbDCpZdzYllFBKGY4Ch57_Qud1Zyr3O0dREgchwyvqsqdcBdYaqdLG6BLMMg1wuio-3Rbv4NO1sstKKTbod9MOuOoB66JqKs32zT91Jz1tbL5x_cjP_svTRqjwC9mjoyo</recordid><startdate>20200909</startdate><enddate>20200909</enddate><creator>Langton, Abigail K</creator><creator>Hann, Mark</creator><creator>Costello, Patrick</creator><creator>Halai, Poonam</creator><creator>Griffiths, Christopher E. 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Exposure to SSR resulted in significant reduction in inter-bead periodicity for reticular dermis-derived FRMs across both cohorts. In contrast, papillary dermal FRMs exhibited significantly increased inter-bead periodicity, with the magnitude of damage greater for African FRMs, as compared to Northern European FRMs. Our data suggest that FRMs of the dermis should be considered as two distinct populations that differentially accrue damage in response to SSR. Furthermore, papillary dermal FRMs derived from black African subjects show greater change following UVR challenge, when extracted from skin. Future studies should focus on understanding the consequences of UVR exposure in vivo , regardless of skin ethnicity, on the molecular composition of FRMs and how this UVR-induced remodelling may affect the role FRMs play in skin homeostasis. Cutaneous fibrillin-rich microfibrils (FRMs) should be considered as two distinct populations that differentially accrue damage in response to SSR. 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subjects	Aging Atomic force microscopy Beads Biochemistry Biomaterials Biopsy Chemical composition Chemistry Damage accumulation Depletion Dermis Ethnic Groups Ethnicity Exposure Female Fibrillin Fibrillins - chemistry Fibrillins - metabolism Homeostasis Humans In vivo methods and tests Male Microfibrils Microfibrils - chemistry Microfibrils - metabolism Microscopy, Atomic Force Minority & ethnic groups Oxidation Periodicity Photon absorption Physical Chemistry Plant Sciences Radiation damage Skin Skin - metabolism Skin - radiation effects Skin Aging Ultrastructure Ultraviolet radiation Ultraviolet Rays Young Adult
title	Remodelling of fibrillin-rich microfibrils by solar-simulated radiation: impact of skin ethnicity
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