Martin Fusek scite author profile

For years, it has been held that cathepsin D (CD) is involved in rather nonspecific protein degradation in a strongly acidic milieu of lysosomes. Studies with CD knock-out mice revealed that CD is not necessary for embryonal development but it is indispensable for postnatal tissue homeostasis. Mutation that abolishes CD enzymatic activity causes neuronal ceroid lipofuscinosis (NCL) characterized by severe neurodegeneration, developmental regression, visual loss and epilepsy in both animals and humans.In the last decade, however, an increasing number of studies demonstrated that enzymatic function of CD is not restricted solely to acidic milieu of lysosomes with important consequences in regulation of apoptosis. In addition to CD enzymatic activity, it has been shown that apoptosis is also regulated by catalytically inactive mutants of CD which suggests that CD interacts with other important molecules and influences cell signaling.Moreover, procathepsin D, secreted from cancer cells, acts as a mitogen on both cancer and stromal cells and stimulates their pro-invasive and pro-metastatic properties. Numerous studies found that pCD/CD level represents an independent prognostic factor in a variety of cancers and is therefore considered to be a potential target of anti-cancer therapy.Studies dealing with functions of cathepsin D are complicated by the fact that there are several simultaneous forms of CD in a cell -pCD, intermediate enzymatically active CD and mature heavy and light chain CD. It became evident that these forms may differently regulate the above mentioned processes.In this article, we review the possible functions of CD and its various forms in cells and organisms during physiological and pathological conditions.

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Two crystal structures for cathepsin D: the lysosomal targeting signal and active site.

Metcalf

Fusek

1993

The EMBO Journal

149

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Two crystal structures are described for the lysosomal aspartic protease cathepsin D (EC 3.4.23.5). The molecular replacement method was used with X‐ray diffraction data to 3 A resolution to produce structures for human spleen cathepsin D and for bovine liver cathepsin D complexed with the 6‐peptide inhibitor pepstatin A. The lysosomal targeting region of cathepsin D defined by previous expression studies [Barnaski et al. (1990) Cell, 63, 281–219] is located in well defined electron density on the surface of the molecules. This region includes the putative binding site of the cis‐Golgi phosphotransferase which is responsible for the initial sorting step for soluble proteins destined for lysosomes by phosphorylating the carbohydrates on these molecules. Carbohydrate density is visible at both expected positions on the cathepsin D molecules and, at the best defined position, four sugar residues extend towards the lysosomal targeting region. The active site of the protease and the active site cleft substrate binding subsites are described using the pepstatin inhibited structure. The model geometry for human cathepsin D has rms deviations from ideal of bonds and angles of 0.013 A and 3.2 degrees respectively. For bovine cathepsin D the corresponding figures are 0.014 A and 3.3 degrees. The crystallographic residuals (R factors) are 16.1% and 15.8% for the human and inhibited bovine cathepsin D models respectively. The free R factors, calculated with 10% of the data reserved for testing the models and not used for refinement, are 25.1% and 24.1% respectively.

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Mitogenic function of human procathepsin D: the role of the propeptide

Fusek

Větvička

1994

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The proform of cathepsin D is secreted by some human breast-cancer cell lines upon stimulation with oestrogen. In these cell lines, procathepsin D was described to act as an autocrine mitogen, and a correlation between the cathepsin D concentration in tumour tissues and poor prognosis for the patient was demonstrated in several independent investigations. In the present study, we focused on the mechanism of procathepsin D mitogenic activity. Procathepsin D isolated from secretions of ZR-75-1 breast-cancer cell line was used to test for mitogenic activity on a set of seven human cell lines. For nanomolar procathepsin D concentrations, we found a stronger dose-responsive cellular reaction in the case of several different human breast-cancer-derived cell lines. The mitogenic activity was not blocked by the inhibition of proteolytic activity nor by the inhibition of the interaction of procathepsin D with mannose-6-phosphate receptors. On the other hand, the addition of antibodies raised against the propeptide impaired the mitogenic activity of procathepsin D, and a synthetic peptide alone corresponding to the propeptide of procathepsin D produced similar effects, as did the zymogen molecule. The synthetic propeptide was shown to block partially the interaction of procathepsin D with the cellular surface. Our results indicate that the mitogenic function involves the propeptide of cathepsin D, which appears to be recognized by a surface receptor.

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Multiple functions of pro‐parts of aspartic proteinase zymogens

et al. 1994

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The importance of aspartic proteinases in human pathophysiology continues to initiate extensive research. With burgeoning information on their biological functions and structures, the traditional view of the role of activation peptides of aspartic proteinases solely as inhibitors of the active site is changing. These peptide segments, or pro-parts, am deemed important for correct folding, targeting, and control of the activation of aspartic proteinase zymogens. Consequently, the primary structures of pro-parts reflect these functions. We discuss guidelines for formation of hypotheses derived from comparing the physiological function of aspartic proteinases and sequences of their pro-parts.

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Martin Fusek

Cathepsin D—Many functions of one aspartic protease

Two crystal structures for cathepsin D: the lysosomal targeting signal and active site.

Mitogenic function of human procathepsin D: the role of the propeptide

Multiple functions of pro‐parts of aspartic proteinase zymogens

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