Maren Paulmann scite author profile

Drugs can induce severe skin reactions that differ in clinical presentation, prognosis, and therapy. The spectrum of these reactions not only includes bullous reactions such as Stevens-Johnson syndrome (SJS), toxic epidermal necrolysis (TEN), and generalized bullous fixed drug eruption (GBFDE) but also acute generalized exanthematous pustulosis (AGEP) and drug reaction with eosinophilia and systemic symptoms (DRESS). If AGEP or DRESS is suspected, the diagnosis should be confirmed by thorough clinical examination, a skin biopsy, and specific laboratory tests. Crucial for the patient's prognosis, the causative agent should be rapidly identified and discontinued. It is therefore important to know the most frequent triggers of severe drug reactions, some of which may induce various reaction patterns. Depending on the clinical diagnosis, symptomatic and adequate supportive therapy, as well as systemic immunomodulatory treatments are used. The prognosis in SJS/TEN is often poor and depends on the patient's age and underlying conditions as well as the extent of skin detachment. The prognosis of GBFDE is somewhat better, but recurrences may lead to more severe disease manifestations. In DRESS, protracted and recurrent courses have been described, whereas AGEP usually resolves without problems.

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The Role of Antimicrobial Peptides in Human Skin and in Skin Infectious Diseases

Schittek

Paulmann²,

Senyürek³

et al. 2008

IDDT

110

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Antimicrobial peptides or proteins (AMPs) represent an ancient and efficient innate defense mechanism which protects interfaces from infection with pathogenic microorganisms. In human skin AMPs are produced mainly by keratinocytes, neutrophils, sebocytes or sweat glands and are either expressed constitutively or after an inflammatory stimulus. In several human skin diseases there is an inverse correlation between severity of the disease and the level of AMP production. Skin lesions of patients with atopic dermatitis show a diminished expression of the beta-defensins and the cathelicidin LL-37. Furthermore, these patients have a reduced amount of the AMP dermcidin in their sweat which correlates with an impaired innate defense of human skin in vivo. In addition, decreased levels of AMPs are associated with burns and chronic wounds. In contrast, overexpression of AMPs can lead to increased protection against skin infections as seen in patients with psoriasis and rosacea, inflammatory skin-diseases which rarely result in superinfection. In other skin diseases, e.g. in patients with acne vulgaris, increased levels of AMPs are often found in inflamed or infected skin areas indicating a role of these peptides in the protection from infection. These data indicate that AMPs have a therapeutical potential as topical anti-infectives in several skin diseases. The broad spectrum of antimicrobial activity, the low incidence of bacterial resistance and their function as immunomodulatory agents are attractive features of AMPs for their clinical use.

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Loss-of-Function Myeloperoxidase Mutations Are Associated with Increased Neutrophil Counts and Pustular Skin Disease

Vergnano

Mockenhaupt

Benzian-Olsson

et al. 2020

The American Journal of Human Genetics

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The identification of disease alleles underlying human autoinflammatory diseases can provide important insights into the mechanisms that maintain neutrophil homeostasis. Here, we focused our attention on generalized pustular psoriasis (GPP), a potentially life-threatening disorder presenting with cutaneous and systemic neutrophilia. Following the whole-exome sequencing of 19 unrelated affected individuals, we identified a subject harboring a homozygous splice-site mutation (c.2031−2A>C) in MPO . This encodes myeloperoxidase, an essential component of neutrophil azurophil granules. MPO screening in conditions phenotypically related to GPP uncovered further disease alleles in one subject with acral pustular psoriasis (c.2031−2A>C;c.2031−2A>C) and in two individuals with acute generalized exanthematous pustulosis (c.1705C>T;c.2031−2A>C and c.1552_1565del;c.1552_1565del). A subsequent analysis of UK Biobank data demonstrated that the c.2031−2A>C and c.1705C>T (p.Arg569Trp) disease alleles were also associated with increased neutrophil abundance in the general population (p = 5.1 × 10 −6 and p = 3.6 × 10 −5 , respectively). The same applied to three further deleterious variants that had been genotyped in the cohort, with two alleles (c.995C>T [p.Ala332Val] and c.752T>C [p.Met251Thr]) yielding p values < 10 −10 . Finally, treatment of healthy neutrophils with an MPO inhibitor (4-Aminobenzoic acid hydrazide) increased cell viability and delayed apoptosis, highlighting a mechanism whereby MPO mutations affect granulocyte numbers. These findings identify MPO as a genetic determinant of pustular skin disease and neutrophil abundance. Given the recent interest in the development of MPO antagonists for the treatment of neurodegenerative disease, our results also suggest that the pro-inflammatory effects of these agents should be closely monitored.

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Maren Paulmann

Structure-Activity Analysis of the Dermcidin-derived Peptide DCD-1L, an Anionic Antimicrobial Peptide Present in Human Sweat

Severe drug‐induced skin reactions: clinical features, diagnosis, etiology, and therapy

The Role of Antimicrobial Peptides in Human Skin and in Skin Infectious Diseases

Loss-of-Function Myeloperoxidase Mutations Are Associated with Increased Neutrophil Counts and Pustular Skin Disease

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