Zhihong Wu

Publications

• 3.24

  Impact points

  Murine filaggrin-2 is involved in epithelial barrier function and down-regulated in metabolically induced skin barrier dysfunction.

  Britta Hansmann, Kerstin Ahrens, Zhihong Wu, Ehrhardt Proksch, Ulf Meyer-Hoffert, Jens-Michael Schröder

  Experimental dermatology. 04/2012; 21(4):271-6.

  The S100 fused-type proteins (SFTPs) are thought to be involved in the barrier formation and function of the skin. Mutations in the profilaggrin gene, one of the best investigated members of this family, are known to be the major risk factors for ichthyosis vulgaris and atopic dermatitis. Recently, ... [more] The S100 fused-type proteins (SFTPs) are thought to be involved in the barrier formation and function of the skin. Mutations in the profilaggrin gene, one of the best investigated members of this family, are known to be the major risk factors for ichthyosis vulgaris and atopic dermatitis. Recently, we identified human filaggrin-2 as a new member of the SFTP family. To achieve further insight into its function, here the murine filaggrin-2 was analysed as a possible orthologue. The 5' and 3' ends of the mouse filaggrin-2 cDNA of the BALB/c strain were sequenced and confirmed an organization typical for SFTPs. Murine filaggrin-2 showed an expression pattern mainly in keratinizing epithelia in the upper cell layers on both mRNA and protein levels. The expression in cultured mouse keratinocytes was increased upon elevated Ca(2+) levels. Immunoblotting experiments indicated an intraepidermal processing of the 250-kDa full-length protein. In metabolically (essential fatty acid-deficient diet) induced skin barrier dysfunction, filaggrin-2 expression was significantly reduced, whereas filaggrin expression was up-regulated. In contrast, mechanical barrier disruption with acetone treatment did not affect filaggrin-2 mRNA expression. These results suggest that filaggrin-2 may contribute to epidermal barrier function and its regulation differs, at least in parts, from that of filaggrin.
• 3.24

  Impact points

  Expression and regulation of murine SPINK12, a potential orthologue of human LEKTI2.

  Karina Reiss, Ulf Meyer-Hoffert, Jan Fischer, Maria Sperrhacke, Zhihong Wu, Olga Dimitrieva, Pavel Krenek, Sarka Suchanova, Halka Buryova, Rena Brauer, Radislav Sedlacek

  Experimental dermatology. 07/2011; 20(11):905-10.

  A balanced proteolytic activity in the epidermis is vital to maintain epidermal homoeostasis and barrier function. Distinct protease-inhibitor systems are operating in different epidermal layers. In the uppermost layer, the stratum corneum, kallikrein-like proteases and their inhibitors are responsi... [more] A balanced proteolytic activity in the epidermis is vital to maintain epidermal homoeostasis and barrier function. Distinct protease-inhibitor systems are operating in different epidermal layers. In the uppermost layer, the stratum corneum, kallikrein-like proteases and their inhibitors are responsible for desquamation of the cornified keratinocytes, thus regulating the integrity of the epidermal barrier. Following discovery and characterisation of the human multidomain inhibitor LEKTI (lympho-epithelial Kazal-type-related inhibitor, encoded by hspink5), several new members of the Kazal-type inhibitor family have been identified. Here we describe expression and regulation of murine SPINK12, a potential orthologue of human LEKTI2. Its expression was analysed by RT-PCR and immunohistochemistry revealing organ-specific pattern with high level of expression in the epidermis and several epithelia including the stomach, kidney and uterus. In addition, mSPINK12 expression in the epidermis of skin at footpads, where stratification is markedly pronounced, was several folds higher than in the abdominal epidermis. mSPINK12 mRNA levels were not affected by any cytokines tested while treatment of primary murine keratinocytes with the combination of calcium and sorbitol resulted in a strong increase in its mRNA. It appears that mspink12 is especially expressed in the epidermal areas with thick skin and that its regulation generally responds to differentiation signals. mrSPINK12 shows an inhibitory activity against murine keratinocyte-derived trypsin-like proteolytic activity, thus, the protein does appear orthologous to human LEKTI2 and may play an role in the regulation of epithelial cell functions.
• 5.54

  Impact points

  Identification of trichohyalin-like 1, an s100 fused-type protein selectively expressed in hair follicles.

  Zhihong Wu, Ties Latendorf, Ulf Meyer-Hoffert, Jens-M Schröder

  The Journal of investigative dermatology. 05/2011; 131(8):1761-3.
• 2.71

  Impact points

  Inhibition of kallikrein-related peptidases by the serine protease inhibitor of Kazal-type 6.

  Tomasz Kantyka, Jan Fischer, Zhihong Wu, Wim Declercq, Karina Reiss, Jens-Michael Schröder, Ulf Meyer-Hoffert

  Peptides. 03/2011; 32(6):1187-92.

  Kallikrein-related peptidases (KLKs) are a group of serine proteases, expressed in several tissues. Their activity is regulated by inhibitors including members of the serine protease of Kazal-type (SPINK) family. Recently, we discovered that SPINK6 is expressed in human skin and inhibits KLK5, KLK7,... [more] Kallikrein-related peptidases (KLKs) are a group of serine proteases, expressed in several tissues. Their activity is regulated by inhibitors including members of the serine protease of Kazal-type (SPINK) family. Recently, we discovered that SPINK6 is expressed in human skin and inhibits KLK5, KLK7, KLK14 but not KLK8. In this study we tested whether SPINK6 inhibits other members of the KLK family and caspase-14. Using chromogenic substrates, SPINK6 exhibited inhibitory activity against KLK12 and KLK13 with K(i) around 1nM, KLK4 with K(i)=27.3nM, KLK6 with K(i)=140nM, caspase-14 with a K(i) approximating 1μM and no activity against KLK1, KLK3 and KLK11. Taken together, SPINK6 is a potent inhibitor of distinct KLKs members.

• Reduction of disulphide bonds unmasks potent antimicrobial activity of human beta-defensin 1

  Bjoern O. Schroeder, Zhihong Wu, Sabine Nuding, Sandra Groscurth, Moritz Marcinowski, Julia Beisner, Johannes Buchner, Martin Schaller, Eduard F. Stange, Jan Wehkamp

  Keystone Symposium, Mucosal Biology: A Fine Balance between Tolerance and Immunity, Vancouver, British Columbia; 01/2011
• 34.48

  Impact points

  Reduction of disulphide bonds unmasks potent antimicrobial activity of human β-defensin 1.

  Bjoern O Schroeder, Zhihong Wu, Sabine Nuding, Sandra Groscurth, Moritz Marcinowski, Julia Beisner, Johannes Buchner, Martin Schaller, Eduard F Stange, Jan Wehkamp

  Nature. 01/2011; 469(7330):419-23.

  Human epithelia are permanently challenged by bacteria and fungi, including commensal and pathogenic microbiota. In the gut, the fraction of strict anaerobes increases from proximal to distal, reaching 99% of bacterial species in the colon. At colonic mucosa, oxygen partial pressure is below 25% of ... [more] Human epithelia are permanently challenged by bacteria and fungi, including commensal and pathogenic microbiota. In the gut, the fraction of strict anaerobes increases from proximal to distal, reaching 99% of bacterial species in the colon. At colonic mucosa, oxygen partial pressure is below 25% of airborne oxygen content, moreover microbial metabolism causes reduction to a low redox potential of -200 mV to -300 mV in the colon. Defensins, characterized by three intramolecular disulphide-bridges, are key effector molecules of innate immunity that protect the host from infectious microbes and shape the composition of microbiota at mucosal surfaces. Human β-defensin 1 (hBD-1) is one of the most prominent peptides of its class but despite ubiquitous expression by all human epithelia, comparison with other defensins suggested only minor antibiotic killing activity. Whereas much is known about the activity of antimicrobial peptides in aerobic environments, data about reducing environments are limited. Herein we show that after reduction of disulphide-bridges hBD-1 becomes a potent antimicrobial peptide against the opportunistic pathogenic fungus Candida albicans and against anaerobic, Gram-positive commensals of Bifidobacterium and Lactobacillus species. Reduced hBD-1 differs structurally from oxidized hBD-1 and free cysteines in the carboxy terminus seem important for the bactericidal effect. In vitro, the thioredoxin (TRX) system is able to reduce hBD-1 and TRX co-localizes with reduced hBD-1 in human epithelia. Hence our study indicates that reduced hBD-1 shields the healthy epithelium against colonisation by commensal bacteria and opportunistic fungi. Accordingly, an intimate interplay between redox-regulation and innate immune defence seems crucial for an effective barrier protecting human epithelia.
• 5.33

  Impact points

  Isolation of SPINK6 in human skin: selective inhibitor of kallikrein-related peptidases.

  Ulf Meyer-Hoffert, Zhihong Wu, Tomasz Kantyka, Jan Fischer, Ties Latendorf, Britta Hansmann, Joachim Bartels, Yinghong He, Regine Gläser, Jens-Michael Schröder

  The Journal of biological chemistry. 10/2010; 285(42):32174-81.

  Kallikrein-related peptidases (KLKs) play a central role in skin desquamation. They are tightly controlled by specific inhibitors, including the lymphoepithelial Kazal-type inhibitor (LEKTI) encoded by SPINK5 and LEKTI-2 encoded by SPINK9. Herein, we identify SPINK6 as a selective inhibitor of KLKs ... [more] Kallikrein-related peptidases (KLKs) play a central role in skin desquamation. They are tightly controlled by specific inhibitors, including the lymphoepithelial Kazal-type inhibitor (LEKTI) encoded by SPINK5 and LEKTI-2 encoded by SPINK9. Herein, we identify SPINK6 as a selective inhibitor of KLKs in the skin. Unlike LEKTI but similar to LEKTI-2, SPINK6 possesses only one typical Kazal domain. Its mRNA was detected to be expressed at low levels in several tissues and was induced during keratinocyte differentiation. Natural SPINK6 was purified from human plantar stratum corneum extracts. Immunohistochemical analyses revealed SPINK6 expression in the stratum granulosum of human skin at various anatomical localizations and in the skin appendages, including sebaceous glands and sweat glands. SPINK6 expression was decreased in lesions of atopic dermatitis. Using KLK5, KLK7, KLK8, KLK14, thrombin, trypsin, plasmin, matriptase, prostasin, mast cell chymase, cathepsin G, neutrophil elastase, and chymotrypsin, inhibition with recombinant SPINK6 was detected only for KLK5, KLK7, and KLK14, with apparent K(i) values of 1.33, 1070, and 0.5 nm, respectively. SPINK6 inhibited desquamation of human plantar callus in an ex vivo model. Our findings suggest that SPINK6 plays a role in modulating the activity of KLKs in human skin. A selective inhibition of KLKs by SPINK6 might have therapeutic potential when KLK activity is elevated.
• 4.41

  Impact points

  Identification of lympho-epithelial kazal-type inhibitor 2 in human skin as a kallikrein-related peptidase 5-secific potease ihibitor.

  Ulf Meyer-Hoffert, Zhihong Wu, Jens-Michael Schröder

  PLoS ONE. 02/2009; 4(2):e4372.

  Kallikreins-related peptidases (KLKs) are serine proteases and have been implicated in the desquamation process of the skin. Their activity is tightly controlled by epidermal protease inhibitors like the lympho-epithelial Kazal-type inhibitor (LEKTI). Defects of the LEKTI-encoding gene serine protea... [more] Kallikreins-related peptidases (KLKs) are serine proteases and have been implicated in the desquamation process of the skin. Their activity is tightly controlled by epidermal protease inhibitors like the lympho-epithelial Kazal-type inhibitor (LEKTI). Defects of the LEKTI-encoding gene serine protease inhibitor Kazal type (Spink)5 lead to the absence of LEKTI and result in the genodermatose Netherton syndrome, which mimics the common skin disease atopic dermatitis. Since many KLKs are expressed in human skin with KLK5 being considered as one of the most important KLKs in skin desquamation, we proposed that more inhibitors are present in human skin. Herein, we purified from human stratum corneum by HPLC techniques a new KLK5-inhibiting peptide encoded by a member of the Spink family, designated as Spink9 located on chromosome 5p33.1. This peptide is highly homologous to LEKTI and was termed LEKTI-2. Recombinant LEKTI-2 inhibited KLK5 but not KLK7, 14 or other serine proteases tested including trypsin, plasmin and thrombin. Spink9 mRNA expression was detected in human skin samples and in cultured keratinocytes. LEKTI-2 immune-expression was focally localized at the stratum granulosum and stratum corneum at palmar and plantar sites in close localization to KLK5. At sites of plantar hyperkeratosis, LEKTI-2 expression was increased. We suggest that LEKTI-2 contributes to the regulation of the desquamation process in human skin by specifically inhibiting KLK5.
• 4.41

  Impact points

  Molecular identification and expression analysis of filaggrin-2, a member of the S100 fused-type protein family.

  Zhihong Wu, Britta Hansmann, Ulf Meyer-Hoffert, Regine Gläser, Jens-Michael Schröder

  PLoS ONE. 02/2009; 4(4):e5227.

  Genes of the S100 fused-type protein (SFTP) family are clustered within the epidermal differentiation complex and encode essential components that maintain epithelial homeostasis and barrier functions. Recent genetic studies have shown that mutations within the gene encoding the SFTP filaggrin cause... [more] Genes of the S100 fused-type protein (SFTP) family are clustered within the epidermal differentiation complex and encode essential components that maintain epithelial homeostasis and barrier functions. Recent genetic studies have shown that mutations within the gene encoding the SFTP filaggrin cause ichthyosis vulgaris and are major predisposing factors for atopic dermatitis. As a vital component of healthy skin, filaggrin is also a precursor of natural moisturizing factors. Here we present the discovery of a member of this family, designated as filaggrin-2 (FLG2) that is expressed in human skin. The FLG2 gene encodes a histidine- and glutamine-rich protein of approximately 248 kDa, which shares common structural features with other SFTP members, in particular filaggrin. We found that FLG2 transcripts are present in skin, thymus, tonsils, stomach, testis and placenta. In cultured primary keratinocytes, FLG2 mRNA expression displayed almost the same kinetics as that of filaggrin following Ca(2+) stimulation, suggesting an important role in molecular regulation of epidermal terminal differentiation. We provide evidences that like filaggrin, FLG2 is initially expressed by upper granular cells, proteolytically processed and deposited in the stratum granulosum and stratum corneum (SC) layers of normal epidermis. Thus, FLG2 and filaggrin may have overlapping and perhaps synergistic roles in the formation of the epidermal barrier, protecting the skin from environmental insults and the escape of moisture by offering precursors of natural moisturizing factors.
• 5.54

  Impact points

  Highly Complex Peptide Aggregates of the S100 Fused-Type Protein Hornerin Are Present in Human Skin.

  Zhihong Wu, Ulf Meyer-Hoffert, Katrin Reithmayer, Ralf Paus, Britta Hansmann, Yinghong He, Joachim Bartels, Regine Gläser, Jürgen Harder, Jens-Michael Schröder

  The Journal of investigative dermatology. 12/2008;

  Human hornerin (HRNR) is a 245 kDa S100 fused-type protein which contains 95% tandem quasi-repeating glycine- and serine-rich domains. Previously HRNR was not thought to be expressed in healthy skin; however, we purified an HRNR peptide fragment from stratum corneum. Moreover, we found that HRNR mRN... [more] Human hornerin (HRNR) is a 245 kDa S100 fused-type protein which contains 95% tandem quasi-repeating glycine- and serine-rich domains. Previously HRNR was not thought to be expressed in healthy skin; however, we purified an HRNR peptide fragment from stratum corneum. Moreover, we found that HRNR mRNA is expressed in skin biopsies from different sites as head, trunk, legs, hands, and feet. In cultured human epidermal keratinocytes, HRNR mRNA expression was transiently induced during Ca(2+)-dependent differentiation. Immunostaining using distinct antibodies generated against four putative HRNR domains revealed strong HRNR immunoreactivity in healthy epidermis as well as in the entire outer root sheath of normal human scalp hair follicles. In lesions from psoriasis and atopic dermatitis patients, HRNR immunoreactivity was reduced compared with uninvolved skin of these patients. Electrospray ionization mass spectrometry and Western blot analyses revealed that HRNR is a highly degradable protein that forms complex high molecular weight peptide aggregates. Our findings suggest that HRNR is expressed in healthy skin and give insight into the complex biology of this protein. HRNR and its degradation products might contribute to the barrier function of healthy human skin.Journal of Investigative Dermatology advance online publication, 20 November 2008; doi:10.1038/jid.2008.370.