LEKTI, a Novel 15-Domain Type of Human Serine Proteinase Inhibitor

Mägert, Hans-Jürgen; Ständker, Ludger; Kreutzmann, Peter; Zucht, Hans-Dieter; Reinecke, Manfred; Sommerhoff, Christian P.; Fritz, Hans; Forssmann, Wolf‐Georg

doi:10.1074/jbc.274.31.21499

Cited by 231 publications

(206 citation statements)

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“…As single domains 1, 5, and 6 have been isolated from ultrafiltrates of human blood (10,17) and a 30 kDa LEKTI fragment corresponding to approximately four domains starting with domain 8 was isolated from human epidermal keratinocyte-conditioned media (18), we suggest that both single-and multiple-domain fragments of LEKTI occur naturally.…”

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confidence: 91%

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The Solution Structure of a Chimeric LEKTI Domain Reveals a Chameleon Sequence

et al. 2004

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The conversion of an R-helical to a -strand conformation and the presence of chameleon sequences are fascinating from the perspective that such structural features are implicated in the induction of amyloid-related fatal diseases. In this study, we have determined the solution structure of a chimeric domain (Dom1PI) from the multidomain Kazal-type serine proteinase inhibitor LEKTI using multidimensional NMR spectroscopy. This chimeric protein was constructed to investigate the reasons for differences in the folds of the homologous LEKTI domains 1 and 6 [Lauber, T., et al. (2003) J. Mol. Biol. 328, 205-219]. In Dom1PI, two adjacent phenylalanine residues (F28 and F29) of domain 1 were substituted with proline and isoleucine, respectively, as found in the corresponding P4′ and P5′ positions of domain 6. The three-dimensional structure of Dom1PI is significantly different from the structure of domain 1 and closely resembles the structure of domain 6, despite the sequence being identical to that of domain 1 except for the two substituted phenylalanine residues and being only 31% identical to the sequence of domain 6. The mutation converted a short 3 10 -helix into an extended loop conformation and parts of the long COOH-terminal R-helix of domain 1 into a -hairpin structure. The latter conformational change occurs in a sequence stretch distinct from the region containing the substituted residues. Therefore, this switch from an R-helical structure to a -hairpin structure indicates a chameleon sequence of seven residues. We conclude that the secondary structure of Dom1PI is determined not only by the local protein sequence but also by nonlocal interactions.

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confidence: 91%

“…Testing of various serine proteinases showed that domain 6 is an efficient (IC 50 = 150 nM) but temporary inhibitor of trypsin (10). Trypsin inhibitory activity has also been found for natural domain 5 and recombinant domains 8 and 15 (17).…”

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confidence: 99%

The Solution Structure of a Chimeric LEKTI Domain Reveals a Chameleon Sequence

et al. 2004

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“…SPINK5 is involved in regulation of proteolysis in epithelia formation and keratinocyte terminal differentiation, and some mutations in the SPINK5 gene cause defects in the skin barrier. 8 SPINK5 is expressed in thymus, tonsil and oral mucosa, 10 and it is suggested that abnormal maturation of T lymphocytes in patients with Netherton syndrome alters Th2-type responsiveness to allergens, leading to elevated IgE levels. 8 A recent study of Caucasian AD families showed that maternally derived alleles of the SPINK5 gene are associated with development of atopic diseases such as AD and asthma, suggesting a parent-oforigin effect in the development of atopic diseases.…”

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Association between polymorphisms in the SPINK5 gene and atopic dermatitis in the Japanese

et al. 2003

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Atopy, which is characterized by increased levels of immunoglobulin E (IgE) against common environmental allergens, is considered the strongest predisposing factor for asthma and atopic dermatitis (AD). Mutations in the gene encoding serine protease inhibitor Kazal-type 5 (SPINK5) are responsible for Netherton syndrome, a rare skin disorder characterized by greatly elevated IgE levels with atopic manifestations. A recent study of Caucasian AD families showed that maternally derived alleles of the SPINK5 gene are associated with development of AD and asthma, suggesting the parent-of-origin effect for the development of atopic diseases in the SPINK5 gene. We studied the possible association of the SPINK5 gene for the development of atopic diseases by determining the genotypes of five polymorphisms in a Japanese population. Ttransmission disequilibrium tests revealed an association of SPINK5 polymorphisms with AD but not with asthma. Our data indicate that the SPINK5 gene is associated with AD across ethnicities.

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“…SPINK5 (serin protease inhibitor Kazal-type 5) encodes the Kazal-type serin protease inhibitor domains. LECT1 is thought to be involved in the regulation of proteolysis in skin barrier formation and immunity and this protein is highly expressed in thymus and mucous epithelia [22].…”

Section: Discussionmentioning

confidence: 99%

“…Low dose oral corticosteroids, etretinate and psoralen ultraviolet A therapy was also used. Topical tacrolimus will likely achieve minimal benefit, and may be contraindicated for patients with extensive skin involvement with concern for systemic absorption [22,31].…”

Section: Discussionmentioning

confidence: 99%