Article date: October 1994
By: Robert Gniadecki, Monika Gniadecka, Jørgen Serup, in Volume 113, Issue 2, pages 439-444
The possibility of preventing and treating glucocorticoid‐induced skin atrophy with KH 1060 (the potent 20‐epi‐22‐oxa‐24a‐homo‐26,27‐dimethyl analogue of 1,25‐dihydroxyvitamin D3) was examined in a hairless mouse model.
KH 1060 (0.625–6.25 pmol cm−2 of skin) applied topically for 7 days together with 2.5 nmol cm−2 betamethasone‐17‐valerate prevented, in a concentration‐dependent manner, the development of epidermal, dermal and total skin thinning caused by the glucocorticoid. The effect of KH 1060 on the epidermis occurred at a lower dose than on the dermis, and at doses above 1.25 pmol cm−2 KH 1060 caused epidermal hyperplasia.
KH 1060 (2.5 pmol cm−2) prevented the development of betamethasone‐associated skin atrophy in mice during a long‐term (4 weeks) treatment, and reversed established cutaneous glucocorticoid atrophy.
Radiolabelling experiments with [35S]‐sulphate and [3H]‐proline in vivo revealed that KH 1060 stimulated the synthesis of sulphated glycosaminoglycans and hydroxyproline in skin treated with betamethasone.
These findings strongly suggest that KH 1060 prevents and reverses glucocorticoid‐induced skin atrophy by stimulating epidermal proliferation and enhancing synthesis of extracellular matrix in the dermis.
The possibility of preventing and treating glucocorticoid‐induced skin atrophy with KH 1060 (the potent 20‐epi‐22‐oxa‐24a‐homo‐26,27‐dimethyl analogue of 1,25‐dihydroxyvitamin D3) was examined in a hairless mouse model.
KH 1060 (0.625–6.25 pmol cm−2 of skin) applied topically for 7 days together with 2.5 nmol cm−2 betamethasone‐17‐valerate prevented, in a concentration‐dependent manner, the development of epidermal, dermal and total skin thinning caused by the glucocorticoid. The effect of KH 1060 on the epidermis occurred at a lower dose than on the dermis, and at doses above 1.25 pmol cm−2 KH 1060 caused epidermal hyperplasia.
KH 1060 (2.5 pmol cm−2) prevented the development of betamethasone‐associated skin atrophy in mice during a long‐term (4 weeks) treatment, and reversed established cutaneous glucocorticoid atrophy.
Radiolabelling experiments with [35S]‐sulphate and [3H]‐proline in vivo revealed that KH 1060 stimulated the synthesis of sulphated glycosaminoglycans and hydroxyproline in skin treated with betamethasone.
These findings strongly suggest that KH 1060 prevents and reverses glucocorticoid‐induced skin atrophy by stimulating epidermal proliferation and enhancing synthesis of extracellular matrix in the dermis.
DOI: 10.1111/j.1476-5381.1994.tb17008.x
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