Topical application of an amygdalin analogue reduces inflammation and keratinocyte proliferation in a psoriasis mouse model.
Nuria Gago-LópezCarmen Lagunas ArnalJuan Jesus PerezErwin F WagnerPublished in: Experimental dermatology (2021)
Psoriasis is a chronic inflammatory skin disease without cure. Systemic and biological therapies are the most effective treatments for patients with severe psoriasis. However, these drugs can cause serious side effects from extended use. Safe and effective topical drugs are needed to decrease psoriatic plaques and reduce the risk of adverse effects. Amygdalin analogues are stable small molecules that showed benefits in psoriasis xenografts to immune-deficient mice by systemic application. However, whether topical application of these amygdalin analogues could reduce the progression of the psoriatic phenotype in an immune-competent organism is unknown. Here, we analyse the efficiency of topical application of an amygdalin analogue cream on a well-established genetic and immune-competent mouse model of psoriasis. Topical application of an amygdalin analogue cream ameliorates psoriasis-like disease in mice, reduces epidermal hyperplasia and skin inflammation. Amygdalin analogue treatment leads to reduced expression of local pro-inflammatory cytokines, but systemic pro-inflammatory cytokines that are highly expressed in psoriasis patients such as IL-17A, IL6 or G-CSF are also decreased. Furthermore, expression of important mediators of psoriasis initiation and epidermal hyperplasia, such as TNFa, S100A9 and TSLP, is decreased in lesional epidermis after amygdalin analogue treatment. In conclusion, we show that amygdalin analogue reduces the proliferative capacity of psoriasis-like stimulated keratinocytes and their inflammatory response in vivo and in vitro. These results suggest that topical application of amygdalin analogues may represent a safe and effective treatment for psoriasis.
Keyphrases
- wound healing
- mouse model
- inflammatory response
- atopic dermatitis
- oxidative stress
- poor prognosis
- molecular docking
- gene expression
- dna methylation
- ejection fraction
- type diabetes
- prognostic factors
- early onset
- patient reported outcomes
- skeletal muscle
- lipopolysaccharide induced
- end stage renal disease
- combination therapy
- disease activity
- long non coding rna