LEKTI domains D6, D7 and D8+9 serve as substrates for transglutaminase 1: implications for targeted therapy of Netherton syndrome

Wiegmann, Henning; Valentin, Frederic; Tarinski, T.; Liebau, Eva; Loser, Karin; Traupe, Heiko; Oji, Vinzenz

doi:10.1111/bjd.17820

Cited by 7 publications

(4 citation statements)

References 34 publications

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“…Other crucial genes for epidermal barrier function are TGM1 and SPINK5. It has been found that LEKTI serves as TGase-1 substrate and patients with Netherton syndrome have increased activity of both TGase-1 and serine proteases (Wiegmann et al, 2019). Similarly, we observed elevated expression of TGase-1 in SPINK5-siRNA treated 3D skin constructs.…”

Section: Role Of Sdr9c7 In Comparison To Other Genes In Epidermal Barsupporting

confidence: 80%

Knockdown of SDR9C7 Impairs Epidermal Barrier Function

Youssefian

Niaziorimi

Saeidian

et al. 2021

Journal of Investigative Dermatology

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Section: Role Of Sdr9c7 In Comparison To Other Genes In Epidermal Barsupporting

confidence: 80%

Knockdown of SDR9C7 Impairs Epidermal Barrier Function

Youssefian

Niaziorimi

Saeidian

et al. 2021

Journal of Investigative Dermatology

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“…Under certain conditions, more than one abnormal finding is present. Examples include abnormal lipid composition of the SC associated with impaired epidermal calcium gradients in KID syndrome [14,15], altered calcium gradients accompanied by increased skin pH and CE rearrangement in aging skin [16], loss-of-function mutations in filaggrin in atopic dermatitis [28], and increased activity of TG1 and serine proteases in Netherton syndrome [61]. These accompanying findings could provide a direction for future research to identify more organized mechanism involved in barrier dysfunction.…”

Section: Discussionmentioning

confidence: 98%

“…These findings emphasize that corneodesmosome degradation depends on the sum of protease and inhibitor activities. In addition to increased activity of serine proteases, TGase1 activity has been reported to increase in Netherton syndrome, which contributes to the novel functional link between LEKTI and TGase1 [61]. Considering that impaired corneodesmosome degradation can lead to hyperkeratosis as a clinical symptom, hyperkeratosis is not considered as a cause of barrier dysfunction related to desquamation.…”

Section: Desquamationmentioning

confidence: 99%

Molecular Mechanism of Epidermal Barrier Dysfunction as Primary Abnormalities

Lee

2020

IJMS

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Epidermal barrier integrity could be influenced by various factors involved in epidermal cell differentiation and proliferation, cell-cell adhesion, and skin lipids. Dysfunction of this barrier can cause skin disorders, including eczema. Inversely, eczema can also damage the epidermal barrier. These interactions through vicious cycles make the mechanism complicated in connection with other mechanisms, particularly immunologic responses. In this article, the molecular mechanisms concerning epidermal barrier abnormalities are reviewed in terms of the following categories: epidermal calcium gradients, filaggrin, cornified envelopes, desquamation, and skin lipids. Mechanisms linked to ichthyoses, atopic dermatitis without exacerbation or lesion, and early time of experimental irritation were included. On the other hand, the mechanism associated with epidermal barrier abnormalities resulting from preceding skin disorders was excluded. The molecular mechanism involved in epidermal barrier dysfunction has been mostly episodic. Some mechanisms have been identified in cultured cells or animal models. Nonetheless, research into the relationship between the causative molecules has been gradually increasing. Further evidence-based systematic data of target molecules and their interactions would probably be helpful for a better understanding of the molecular mechanism underlying the dysfunction of the epidermal barrier.may not be the primary events in lesional skin. However, they can play a role in part as primary abnormalities because abnormalities in the epidermal barrier are already present in non-lesional skin of atopic dermatitis [1]. Epidermal trauma from tape stripping or irritant application also leads to initial disruption of the barrier, although the result at certain time points may be combined with compensatory reactions followed by trauma.Causative mechanisms involved in primary epidermal barrier dysfunction might be more valuable for the prevention of skin diseases induced by barrier abnormalities. However, the underlying mechanism has been discussed mainly in connection with immunologic responses, including cytokine production [1,9,10]. Accordingly, this review covers molecular mechanisms of epidermal barrier dysfunction as primary abnormalities by focusing on the causative factors of skin diseases (atopic dermatitis and ichthyoses) and experimental skin conditions (tape stripping and irritant application) associated with skin barrier abnormalities. Molecular Mechanisms Related to Epidermal Barrier DysfunctionFormation and maintenance of skin barrier integrity could be influenced by genetic and environmental factors involved in epidermal cell differentiation and proliferation, cell-cell adhesion, and skin lipids. Mechanisms related to epidermal barrier dysfunction at molecular levels have commonly illustrated filaggrin mutations [3,11]. Regarding the mechanism behind skin barrier integrity, the role of epidermal calcium gradients could be considered based on their influence on keratinocyte proliferation and dif...

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“…LEKTI, the protein product of the SPINK5 gene, is cleaved by furin into specific domains, with some of these domains undergoing further activation by the epidermal enzyme transglutaminase 1. [ 49 ] These activated subunits of LEKTI then inhibit the activation of KLK5, KLK6, KLK7 and KLK14, thus inhibiting corneodesmosome breakdown and desquamation and inhibiting the pro‐inflammatory effects of KLK6. [ 20,50 ] This is consistent with absence or splitting of the cornified layer sometimes seen in NS, [ 26 ] in which dysfunction of LEKTI leads to uninhibited breakdown of corneodesmosomes.…”

Section: Lekti and Matriptase Have Opposing Functions In Cutaneous Pr...mentioning

confidence: 99%

The matriptase‐prostasin proteolytic cascade in dermatologic diseases

Touati

Saeidian

Youssefian

et al. 2020

Experimental Dermatology

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The matriptase-prostasin cascade is a series of proteolytic reactions playing critical roles in multiple epithelial tissues. [1] Specifically, this cascade has unique components and functions in the epidermis. The matriptase-prostasin proteolytic cascade has been the subject of extensive recent dermatologic research, which has clarified its role in regulating differentiation and desquamation in the epidermis and follicular units. Additionally, genetic alterations in proteases in this cascade have been associated with human dermatologic diseases, including ichthyosis-hypotrichosis syndrome (IHS) and Netherton syndrome (NS). The matriptase-prostasin cascade is thus essential for proper epidermal function, and its dysfunction has clinical consequences. Given the relevance of this pathway to dermatology, we here provide an updated review of this cascade, with critical insight into multiple dermatologic diseases.

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LEKTI domains D6, D7 and D8+9 serve as substrates for transglutaminase 1: implications for targeted therapy of Netherton syndrome

Cited by 7 publications

References 34 publications

Knockdown of SDR9C7 Impairs Epidermal Barrier Function

Knockdown of SDR9C7 Impairs Epidermal Barrier Function

Molecular Mechanism of Epidermal Barrier Dysfunction as Primary Abnormalities

The matriptase‐prostasin proteolytic cascade in dermatologic diseases

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