Posttranslational Processing and Modification of Cathepsins and Cystatins

Cathepsins are an essential protease family in all living cells. The cathepsins play an essential roles such as protein catabolism and protein synthesis. To targeting to various organella and to regulate their activity, the post translational-processing and modification play an important role Cathepsins are translated in polysome as the pre-pro-mature forms. The pre-peptide is removed cotranslationally and then translocated to Golgi-apparatus and the pro-part is removed and the mature-part is glycosylated, and the mature-part is targeted into the lysosome mediated by mannose-6-phosphate signal and the mature-part is bound with their coenzymes. The degradation of the mature-part is started by the limited proteolysis of the ordered nicked bonds to make hydrophobic peptides. The peptides are incorporated into phagosome or proteasome after ubiquitinated and are degrade into amino-acids. Cystatins are endogenous inhibitors of cathepsins. Cystatin α which is only located in skin is phosphorylated at the near C-terminus by protein kinase-C, and the phosphorylate-cystatin α is incorporated into cornified envelope and conjugated with filaggrin-fiber by transglutaminase to form the linker-fiber of skin. The cystatin α is modified by glutathione or make their dimmer, and they are inactive. Those modifications are regulated by the redox-potential by the glutathione

Amino acid sequence of rat liver cathepsin L

AbstractThe complete amino acid sequences of the heavy and light chains of rat liver cathepsin L (EC 3.4.22.15) were determined at the protein level. The heavy and light chains consisted of 175 and 44 amino acid residues, respectively, and their Mr values without glycosyl groups calculated from these sequences were 18941 and 5056, respectively. The amino acid sequence was also determined from the N-terminal sequences of the heavy and light chains, and the sequences of cleavage fragments of the heavy chain with lysylendopeptidase and cyanogen bromide. The fragments were aligned by comparison with the amino acid sequence deduced from the sequence of cDNA of rat preprocathepsin L. The sequence of rat liver cathepsin L determined at the protein level was identical with that deduced from the cDNA sequence except that in the heavy chain, residues 176–177 (Asp-Ser) were not present at the C-terminus and alanine was replaced by proline at residue 125. Asn-108 in the heavy chain is modified with carbohydrate

Involvement of cathepsins in the invasion, metastasis and proliferation of cancer cells

Tumor cell invasion and metastasis are associated with the proteolytic activity of various types of proteinases. Among them, cathepsins, which are lysosomal proteinases, have received more attention recently. Since elevated expressions of cathepsins and diminished levels of their inhibitors have been observed in several human cancers, including breast, gastric and prostate cancer, especially in aggressive cancer cells, cathepsins have been suggested to be biological markers of malignant tumors and have proved useful for prognosis of the disease. Furthermore, cathepsins have various roles in cancer progression. Cathepsin D has a mitogenic activity independent of its proteolytic activity and it attenuates the anti-tumor immune response of decaying chemokines to inhibit the function of dendritic cells. Cathepsins B and L have been shown to play an important role in matrix degradation and cell invasion. The administration of their inhibitors prevents the invasion and metastasis of cancer cells. These results indicate that cancer cells orchestrate various cathepsins to progress malignant diseases. Cathepsins may be a potential target for cancer therapy

Cathepsin B-inhibitor promotes the development of Th1 type protective T cells in mice infected with Leishmania major

BALB/c mice are genetically susceptible to infection with Leishmania major (L. major). When such mice infected with L. major were treated with specific inhibitors of cathepsin B, a lysosomal cysteine protease that digests exogenous antigenic proteins, the mice acquired resistance against L. major infection. T cells from these mice produced large amounts of IFN-γ and low amounts of IL-4 as compared with those of untreated BALB/c mice. In addition, the mice treated with cathepsin B inhibitor produced a high titer of IgG2a specific antibodies and only low titers of IgG1 and IgE antibodies. This type of response is in contrast with the high specific IgG1 or IgE antibody responses which are the usual antibody responses in BALB/c mice infected with L. major. These findings indicate that cathepsin B may be critically involved in processing antigens of L. major to promote exclusively the development of Th2 type CD4+T cell responses

Medical significance of cysteine protease inhibitors in mammalian secretory fluids

New cysteine protease inhibitors in human tears and milk and their medical significance are reviewed in this paper. As protective components against bacterial infection in the eyes, we detected four kinds of anti-bacterial proteins in normal human tears including lysozyme and three kinds of cysteine protease inhibitors. Using our reverse zymography of normal tears, three kinds of cysteine protease inhibitors were found to be 78kDa, 20kDa and 15kDa and were determined to be lactoferrin, Von Ebner’s Gland(VEG)protein and cystatin S, respectively. All of them belong to the cystatin super family and VEG protein and cystatin S are well known cysteine protease inhibitors. TheC-terminusarea17mer peptide,Y679-K695,of lactoferrin showed strong homology with a common active domain of the cystatin family and the synthesized peptide showed inhibition of cysteine proteases. Not only were disease-specific changes found in these inhibitor profiles, but also disease-specific new inhibitors in patients tear with certain autoimmune diseases. A 35kDa inhibitor, which was detected specifically in tears with Behcet’s disease, an typical autoimmune disease, was determined to be a lacrimal acidic proline-rich protein based on the N-terminus sequence analysis. A65kDa inhibitor of tears with Harada’s autoimmune disease was determined to be an Ig heavy chain V-III region. In addition, lactoferrin content in Harada’s disease was very low. We found two cathepsin inhibitors in bovine milk using reverse zymography, namely lactoferrinandβ-casein. TheL133-Q151, in the humanβ-casein moleculeis the active inhibitory domain. They may play an important role in antiseptic and anti-infectious functions

Molecular cloning and sequencing of cDNA for rat cathepsin H Homology in pro-peptide regions of cysteine proteinases

AbstractA cDNA for rat cathepsin H was isolated and sequenced. The deduced protein comprising 333 amino acid residues is composed of a typical signal sequence (21 residues), a pro-peptide region (92 residues) and a mature enzyme region (220 residues). The amino acid sequence in the pro-peptide region, in particular, residues Phe-(−41) to Ser-(−29) of cathepsin H, is highly homologous to the pro-peptide regions of other cysteine proteinases. This homologous region may play a role in the processing of cysteine proteinases

Structure based development of novel specific inhibitors for cathepsin L and cathepsin S in vitro and in vivo

AbstractSpecific inhibitors for cathepsin L and cathepsin S have been developed with the help of computer-graphic modeling based on the stereo-structure. The common fragment, N-(L-trans-carbamoyloxyrane-2-carbonyl)-phenylalanine-dimethylamide, is required for specific inhibition of cathepsin L. Seven novel inhibitors of the cathepsin L inhibitor Katunuma (CLIK) specifically inhibited cathepsin L at a concentration of 10−7 M in vitro, while almost no inhibition of cathepsins B, C, S and K was observed. Four of the CLIKs are stable, and showed highly selective inhibition for hepatic cathepsin L in vivo. One of the CLIK inhibitors contains an aldehyde group, and specifically inhibits cathepsin S at 10−7 M in vitro

TNF-α increases human melanoma cell invasion and migration in vitro: the role of proteolytic enzymes

Inflammatory mediators have been reported to promote malignant cell growth, invasion and metastatic potential. More specifically, we have recently reported that tumour necrosis factor alpha (TNF-a) increases melanoma cell attachment to extracellular matrix (ECM) substrates and invasion through fibronectin. In this study, we extend these investigations asking specifically whether the TNF-a effect on cell invasion and migration involves activation of proteolytic enzymes. We examined the effect of TNF-a on melanoma expression/activation of type IV gelatinases matrix metalloproteinases 2 and 9 (MMPs -2 and -9) and general proteolytic enzymes. Stimulation with TNF-a significantly increased both melanoma cell migration at 24 h ( þ 21%) and invasion through fibronectin ( þ 35%) but did not upregulate/activate the expression of latent MMP-2 constitutively produced by these cells and did not upregulate their general protease activity. However, the increased cell migration and invasion through fibronectin observed following stimulation with TNF-a were inhibited by the general protease inhibitor a2 macroglobulin. These findings suggest that the promigratory and proinvasive effect of TNF-a on this melanoma cell line may be mediated to some extent by induction of localised cell membrane-bound degradative enzyme activity, which is not readily detected in biochemical assays

Cathepsin L Inhibition Prevents Murine Autoimmune Diabetes via Suppression of CD8+ T Cell Activity

Background: Type 1 diabetes (T1D) is an autoimmune disease resulting from defects in central and peripheral tolerance and characterized by T cell-mediated destruction of islet b cells. To determine whether specific lysosomal proteases might influence the outcome of a T cell–mediated autoimmune response, we examined the functional significance of cathepsin inhibition on autoimmune T1D-prone non-obese diabetic (NOD) mice. Methods and Findings: Here it was found that specific inhibition of cathepsin L affords strong protection from cyclophosphamide (CY)-induced insulitis and diabetes of NOD mice at the advanced stage of CD8 + T cell infiltration via inhibiting granzyme activity. It was discovered that cathepsin L inhibition prevents cytotoxic activity of CD8 + T cells in the pancreatic islets through controlling dipeptidyl peptidase I activity. Moreover, the gene targeting for cathepsin L with application of in vivo siRNA administration successfully prevented CY-induced diabetes of NOD mice. Finally, cathepsin L mRNA expression of peripheral CD8 + T cells from NOD mice developing spontaneous T1D was significantly increased compared with that from control mice. Conclusions: Our results identified a novel function of cathepsin L as an enzyme whose activity is essential for the progression of CD8 + T cell-mediated autoimmune diabetes, and inhibition of cathepsin L as a powerful therapeutic strateg