Vemurafenib skin phototoxicity is indirectly linked to ultraviolet A minimal erythema dose decrease

Summary Background Vemurafenib, an anti‐rapidly accelerated fibrosarcoma kinase B (BRAF) molecule, improves survival among patients with metastatic BRAF‐mutated melanoma. Photosensitivity, a frequent cutaneous adverse effect induced by vemurafenib, can lead to cessation of treatment. Objectives To i...

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Published in	British journal of dermatology (1951) Vol. 171; no. 6; pp. 1529 - 1532
Main Authors	Brugière, C., Stefan, A., Morice, C., Cornet, E., Moreau, A., Allouche, S., Verneuil, L.
Format	Journal Article
Language	English
Published	Oxford Blackwell Publishing Ltd 01.12.2014 Wiley-Blackwell
Subjects	Adult Aged Antineoplastic Agents - adverse effects Biological and medical sciences Dermatitis, Phototoxic - etiology Dermatology Dose-Response Relationship, Radiation Erythema - etiology Female Humans Indoles - adverse effects Male Medical sciences Melanoma - drug therapy Middle Aged Prospective Studies Skin involvement in other diseases. Miscellaneous. General aspects Skin Neoplasms - drug therapy Sulfonamides - adverse effects Ultraviolet Rays - adverse effects Photosensitivity Skin disease UVA radiation Decrease Minimal erythema dose Dermatology Toxicity Phototoxicity Skin
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ISSN	0007-0963 1365-2133 1365-2133
DOI	10.1111/bjd.13300

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Abstract	Summary Background Vemurafenib, an anti‐rapidly accelerated fibrosarcoma kinase B (BRAF) molecule, improves survival among patients with metastatic BRAF‐mutated melanoma. Photosensitivity, a frequent cutaneous adverse effect induced by vemurafenib, can lead to cessation of treatment. Objectives To investigate photosensitivity mechanisms in patients treated with vemurafenib for metastatic melanoma. Methods In a prospective study of 12 patients, photobiological explorations with measurements of ultraviolet A (UVA) minimal erythema dose (MED) and polychromatic MED were performed over 3 days in all 12 patients. UVA MED and polychromatic MED were also assessed for four patients before treatment. We then performed spectrophotometric analyses of (i) serum and faeces in these four patients, before and after introduction of vemurafenib; (ii) the lyophilized form of vemurafenib without excipient added; and (iii) the lyophilized form of vemurafenib added to serum and faeces before treatment. Results Photosensitivity was present in 92% of the patients. UVA MED was normal before treatment and decreased after treatment, while polychromatic MED remained normal. The same three peaks (210, 260 and 310 nm) were identified in the spectrum for UVB and UVC but not for UVA on spectrophotometric analyses for each condition (lyophilized vemurafenib; serum and faeces after introduction of vemurafenib; and lyophilized vemurafenib added to serum and faeces before treatment). The peaks were different before treatment. Conclusions Our study confirms that photosensitivity under vemurafenib treatment was a UVA phototoxicity reaction, and our results suggest that a metabolite of vemurafenib rather than the parent molecule is involved in this phototoxicity. What's already known about this topic? Photosensitivity under vemurafenib is a phototoxicity reaction linked to ultraviolet A (UVA) radiation. What does this study add? We confirm photosensitivity linked to UVA radiation. We address the question of the spectrum of vemurafenib using spectrophotometric analyses of lyophilized vemurafenib, and of patient serum and faeces before and after the introduction of vemurafenib. We show peaks in UVB and UVC, but not in UVA, suggesting that UVA phototoxicity is linked to a metabolite rather than to the parent molecule.
AbstractList	Summary Background Vemurafenib, an anti‐rapidly accelerated fibrosarcoma kinase B (BRAF) molecule, improves survival among patients with metastatic BRAF‐mutated melanoma. Photosensitivity, a frequent cutaneous adverse effect induced by vemurafenib, can lead to cessation of treatment. Objectives To investigate photosensitivity mechanisms in patients treated with vemurafenib for metastatic melanoma. Methods In a prospective study of 12 patients, photobiological explorations with measurements of ultraviolet A (UVA) minimal erythema dose (MED) and polychromatic MED were performed over 3 days in all 12 patients. UVA MED and polychromatic MED were also assessed for four patients before treatment. We then performed spectrophotometric analyses of (i) serum and faeces in these four patients, before and after introduction of vemurafenib; (ii) the lyophilized form of vemurafenib without excipient added; and (iii) the lyophilized form of vemurafenib added to serum and faeces before treatment. Results Photosensitivity was present in 92% of the patients. UVA MED was normal before treatment and decreased after treatment, while polychromatic MED remained normal. The same three peaks (210, 260 and 310 nm) were identified in the spectrum for UVB and UVC but not for UVA on spectrophotometric analyses for each condition (lyophilized vemurafenib; serum and faeces after introduction of vemurafenib; and lyophilized vemurafenib added to serum and faeces before treatment). The peaks were different before treatment. Conclusions Our study confirms that photosensitivity under vemurafenib treatment was a UVA phototoxicity reaction, and our results suggest that a metabolite of vemurafenib rather than the parent molecule is involved in this phototoxicity. What's already known about this topic? Photosensitivity under vemurafenib is a phototoxicity reaction linked to ultraviolet A (UVA) radiation. What does this study add? We confirm photosensitivity linked to UVA radiation. We address the question of the spectrum of vemurafenib using spectrophotometric analyses of lyophilized vemurafenib, and of patient serum and faeces before and after the introduction of vemurafenib. We show peaks in UVB and UVC, but not in UVA, suggesting that UVA phototoxicity is linked to a metabolite rather than to the parent molecule. Vemurafenib, an anti-rapidly accelerated fibrosarcoma kinase B (BRAF) molecule, improves survival among patients with metastatic BRAF-mutated melanoma. Photosensitivity, a frequent cutaneous adverse effect induced by vemurafenib, can lead to cessation of treatment. To investigate photosensitivity mechanisms in patients treated with vemurafenib for metastatic melanoma. In a prospective study of 12 patients, photobiological explorations with measurements of ultraviolet A (UVA) minimal erythema dose (MED) and polychromatic MED were performed over 3 days in all 12 patients. UVA MED and polychromatic MED were also assessed for four patients before treatment. We then performed spectrophotometric analyses of (i) serum and faeces in these four patients, before and after introduction of vemurafenib; (ii) the lyophilized form of vemurafenib without excipient added; and (iii) the lyophilized form of vemurafenib added to serum and faeces before treatment. Photosensitivity was present in 92% of the patients. UVA MED was normal before treatment and decreased after treatment, while polychromatic MED remained normal. The same three peaks (210, 260 and 310 nm) were identified in the spectrum for UVB and UVC but not for UVA on spectrophotometric analyses for each condition (lyophilized vemurafenib; serum and faeces after introduction of vemurafenib; and lyophilized vemurafenib added to serum and faeces before treatment). The peaks were different before treatment. Our study confirms that photosensitivity under vemurafenib treatment was a UVA phototoxicity reaction, and our results suggest that a metabolite of vemurafenib rather than the parent molecule is involved in this phototoxicity. Vemurafenib, an anti-rapidly accelerated fibrosarcoma kinase B (BRAF) molecule, improves survival among patients with metastatic BRAF-mutated melanoma. Photosensitivity, a frequent cutaneous adverse effect induced by vemurafenib, can lead to cessation of treatment.BACKGROUNDVemurafenib, an anti-rapidly accelerated fibrosarcoma kinase B (BRAF) molecule, improves survival among patients with metastatic BRAF-mutated melanoma. Photosensitivity, a frequent cutaneous adverse effect induced by vemurafenib, can lead to cessation of treatment.To investigate photosensitivity mechanisms in patients treated with vemurafenib for metastatic melanoma.OBJECTIVESTo investigate photosensitivity mechanisms in patients treated with vemurafenib for metastatic melanoma.In a prospective study of 12 patients, photobiological explorations with measurements of ultraviolet A (UVA) minimal erythema dose (MED) and polychromatic MED were performed over 3 days in all 12 patients. UVA MED and polychromatic MED were also assessed for four patients before treatment. We then performed spectrophotometric analyses of (i) serum and faeces in these four patients, before and after introduction of vemurafenib; (ii) the lyophilized form of vemurafenib without excipient added; and (iii) the lyophilized form of vemurafenib added to serum and faeces before treatment.METHODSIn a prospective study of 12 patients, photobiological explorations with measurements of ultraviolet A (UVA) minimal erythema dose (MED) and polychromatic MED were performed over 3 days in all 12 patients. UVA MED and polychromatic MED were also assessed for four patients before treatment. We then performed spectrophotometric analyses of (i) serum and faeces in these four patients, before and after introduction of vemurafenib; (ii) the lyophilized form of vemurafenib without excipient added; and (iii) the lyophilized form of vemurafenib added to serum and faeces before treatment.Photosensitivity was present in 92% of the patients. UVA MED was normal before treatment and decreased after treatment, while polychromatic MED remained normal. The same three peaks (210, 260 and 310 nm) were identified in the spectrum for UVB and UVC but not for UVA on spectrophotometric analyses for each condition (lyophilized vemurafenib; serum and faeces after introduction of vemurafenib; and lyophilized vemurafenib added to serum and faeces before treatment). The peaks were different before treatment.RESULTSPhotosensitivity was present in 92% of the patients. UVA MED was normal before treatment and decreased after treatment, while polychromatic MED remained normal. The same three peaks (210, 260 and 310 nm) were identified in the spectrum for UVB and UVC but not for UVA on spectrophotometric analyses for each condition (lyophilized vemurafenib; serum and faeces after introduction of vemurafenib; and lyophilized vemurafenib added to serum and faeces before treatment). The peaks were different before treatment.Our study confirms that photosensitivity under vemurafenib treatment was a UVA phototoxicity reaction, and our results suggest that a metabolite of vemurafenib rather than the parent molecule is involved in this phototoxicity.CONCLUSIONSOur study confirms that photosensitivity under vemurafenib treatment was a UVA phototoxicity reaction, and our results suggest that a metabolite of vemurafenib rather than the parent molecule is involved in this phototoxicity.
Author	Morice, C. Moreau, A. Verneuil, L. Allouche, S. Brugière, C. Stefan, A. Cornet, E.
Author_xml	– sequence: 1 givenname: C. surname: Brugière fullname: Brugière, C. email: CorrespondenceCharlotte Brugière. andLaurence Verneuil., charlotte.brugiere@hotmail.frverneuil-l@chu-caen.fr organization: Department of Dermatology, CHU Caen, F-14000, Caen, France – sequence: 2 givenname: A. surname: Stefan fullname: Stefan, A. organization: Department of Dermatology, CHU Caen, F-14000, Caen, France – sequence: 3 givenname: C. surname: Morice fullname: Morice, C. organization: Department of Dermatology, CHU Caen, F-14000, Caen, France – sequence: 4 givenname: E. surname: Cornet fullname: Cornet, E. organization: Université Caen Basse-Nomandie, Medical School, F-14000, Caen, France – sequence: 5 givenname: A. surname: Moreau fullname: Moreau, A. organization: Department of Dermatology, CHU Caen, F-14000, Caen, France – sequence: 6 givenname: S. surname: Allouche fullname: Allouche, S. organization: Université Caen Basse-Nomandie, Medical School, F-14000, Caen, France – sequence: 7 givenname: L. surname: Verneuil fullname: Verneuil, L. email: CorrespondenceCharlotte Brugière. andLaurence Verneuil., charlotte.brugiere@hotmail.frverneuil-l@chu-caen.fr organization: Department of Dermatology, CHU Caen, F-14000, Caen, France
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Cites_doi	10.1093/annonc/mdt015 10.1056/NEJMoa1112302 10.1111/exd.12119 10.1056/NEJMc1113752 10.1056/NEJMoa1002011 10.1056/NEJMoa1103782 10.1111/j.1468-3083.2012.04546.x 10.1093/annonc/mds292 10.1634/theoncologist.2012-0333
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Keywords	Photosensitivity Skin disease UVA radiation Decrease Minimal erythema dose Dermatology Toxicity Phototoxicity Skin
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References	Sosman JA, Kim KB, Schuchter L et al. Survival in BRAF V600-mutant advanced melanoma treated with vemurafenib. N Engl J Med 2012; 366:707-14. Flaherty KT, Puzanov I, Kim KB et al. Inhibition of mutated, activated BRAF in metastatic melanoma. N Engl J Med 2010; 363:809-19. Mattei PL, Alora-Palli MB, Kraft S et al. Cutaneous effects of BRAF inhibitor therapy: a case series. Ann Oncol 2013; 24:530-7. Dummer R, Rinderknecht J, Goldinger SM. Ultraviolet A and photosensitivity during vemurafenib therapy. N Engl J Med 2012; 366:480-1. Holzle E, Plewig G, Lehmann P. Photodermatoses - diagnostic procedures and their interpretation. Photodermatology 1987; 4:109-14. Boussemart L, Routier E, Mateus C et al. Prospective study of cutaneous side-effects associated with the BRAF inhibitor vemurafenib: a study of 42 patients. Ann Oncol 2013; 24:1691-7. Lacouture ME, Duvic M, Hauschild A et al. Analysis of dermatologic events in vemurafenib-treated patients with melanoma. Oncologist 2013; 18:314-22. Manousaridis I, Mavridou S, Goerdt S et al. Cutaneous side effects of inhibitors of the RAS/RAF/MEK/ERK signalling pathway and their management. J Eur Acad Dermatol Venereol 2013; 27:11-18. Gelot P, Dutartre H, Khammari A et al. Vemurafenib: an unusual UVA-induced photosensitivity. Exp Dermatol 2013; 22:297-8. Chapman PB, Hauschild A, Robert C et al. Improved survival with vemurafenib in melanoma with BRAF V600E mutation. N Engl J Med 2011; 364:2507-16. 2010; 363 2013; 18 2012; 366 2013; 27 2013; 22 2013; 24 1987; 4 2011; 364 Chapman (10.1111/bjd.13300-BIB0001\|bjd13300-cit-0001) 2011; 364 Boussemart (10.1111/bjd.13300-BIB0007\|bjd13300-cit-0007) 2013; 24 Flaherty (10.1111/bjd.13300-BIB0002\|bjd13300-cit-0002) 2010; 363 Holzle (10.1111/bjd.13300-BIB0010\|bjd13300-cit-0010) 1987; 4 Dummer (10.1111/bjd.13300-BIB0004\|bjd13300-cit-0004) 2012; 366 Mattei (10.1111/bjd.13300-BIB0006\|bjd13300-cit-0006) 2013; 24 Gelot (10.1111/bjd.13300-BIB0009\|bjd13300-cit-0009) 2013; 22 Sosman (10.1111/bjd.13300-BIB0003\|bjd13300-cit-0003) 2012; 366 Manousaridis (10.1111/bjd.13300-BIB0005\|bjd13300-cit-0005) 2013; 27 Lacouture (10.1111/bjd.13300-BIB0008\|bjd13300-cit-0008) 2013; 18
References_xml	– reference: Chapman PB, Hauschild A, Robert C et al. Improved survival with vemurafenib in melanoma with BRAF V600E mutation. N Engl J Med 2011; 364:2507-16. – reference: Flaherty KT, Puzanov I, Kim KB et al. Inhibition of mutated, activated BRAF in metastatic melanoma. N Engl J Med 2010; 363:809-19. – reference: Manousaridis I, Mavridou S, Goerdt S et al. Cutaneous side effects of inhibitors of the RAS/RAF/MEK/ERK signalling pathway and their management. J Eur Acad Dermatol Venereol 2013; 27:11-18. – reference: Holzle E, Plewig G, Lehmann P. Photodermatoses - diagnostic procedures and their interpretation. Photodermatology 1987; 4:109-14. – reference: Sosman JA, Kim KB, Schuchter L et al. Survival in BRAF V600-mutant advanced melanoma treated with vemurafenib. N Engl J Med 2012; 366:707-14. – reference: Dummer R, Rinderknecht J, Goldinger SM. Ultraviolet A and photosensitivity during vemurafenib therapy. N Engl J Med 2012; 366:480-1. – reference: Gelot P, Dutartre H, Khammari A et al. Vemurafenib: an unusual UVA-induced photosensitivity. Exp Dermatol 2013; 22:297-8. – reference: Boussemart L, Routier E, Mateus C et al. Prospective study of cutaneous side-effects associated with the BRAF inhibitor vemurafenib: a study of 42 patients. Ann Oncol 2013; 24:1691-7. – reference: Mattei PL, Alora-Palli MB, Kraft S et al. Cutaneous effects of BRAF inhibitor therapy: a case series. Ann Oncol 2013; 24:530-7. – reference: Lacouture ME, Duvic M, Hauschild A et al. Analysis of dermatologic events in vemurafenib-treated patients with melanoma. 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Snippet	Summary Background Vemurafenib, an anti‐rapidly accelerated fibrosarcoma kinase B (BRAF) molecule, improves survival among patients with metastatic... Vemurafenib, an anti-rapidly accelerated fibrosarcoma kinase B (BRAF) molecule, improves survival among patients with metastatic BRAF-mutated melanoma....
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SubjectTerms	Adult Aged Antineoplastic Agents - adverse effects Biological and medical sciences Dermatitis, Phototoxic - etiology Dermatology Dose-Response Relationship, Radiation Erythema - etiology Female Humans Indoles - adverse effects Male Medical sciences Melanoma - drug therapy Middle Aged Prospective Studies Skin involvement in other diseases. Miscellaneous. General aspects Skin Neoplasms - drug therapy Sulfonamides - adverse effects Ultraviolet Rays - adverse effects
Title	Vemurafenib skin phototoxicity is indirectly linked to ultraviolet A minimal erythema dose decrease
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