Discovery of pyrazolo[3,4-d]pyrimidines as novel mitogen-activated protein kinase kinase 3 (MKK3) inhibitors.

The dual-specificity protein kinase MKK3 has been implicated in tumor cell proliferation and survival, yet its precise role in cancer remains inconclusive. A critical step in elucidating the kinase's involvement in disease biology is the identification of potent, cell-permeable kinase inhibitors. Presently, MKK3 lacks a dedicated tool compound for these purposes, along with validated methods for the facile screening, identification, and optimization of inhibitors. In this study, we have developed a TR-FRET-based enzymatic assay for the detection of MKK3 activity in vitro and a BRET-based assay to assess ligand binding to this enzyme within intact human cells. These assays were instrumental in identifying hit compounds against MKK3 that share a common chemical scaffold, sourced from a library of bioactive kinase inhibitors. Initial hits were subsequently expanded through the synthesis of novel analogs. The resulting structure-activity relationship (SAR) was rationalized using molecular dynamics simulations against a homology model of MKK3. We expect our findings to expedite the development of novel, potent, selective, and bioactive inhibitors, thus facilitating investigations into MKK3's role in various cancers.

Serpin Phage Display: The Use of a T7 System to Probe Reactive Center Loop Libraries with Different Serine Proteinases.

Phage display is a protein engineering approach that involves construction of libraries of variant proteins displayed on the surface of bacteriophage as capsid fusion proteins and their screening for binding and inhibitory function through the use of bait proteins. Recently, we adapted a commercially available T7 phage display system to create phage-displayed serpin libraries hypervariable in up to five positions in their reactive center loop (RCL). The RCL is a key determinant in serpin specificity, the relationship between the structure of a given serpin and which target proteinase(s) it inhibits. In this chapter, we describe protocols to assess the feasibility of this method for different serpin/proteinase combinations and share experience with this technology gathered in the course of studying two serpins and multiple proteinases with this powerful iterative screening approach.

Vioserpin, a serine protease inhibitor from Gloeobacter violaceus possibly regulated by heparin.

Serine peptidase inhibitor (serpin) is the name given to the superfamily of proteins with wide range of biological functions, and that the main feature is the inhibition of serine proteases. Here we describe the inhibitory characterization of a serpin from Gloeobacter violaceus that we named vioserpin. The serpin presented a high specificity to inhibit trypsin-like enzymes with a rapid inhibition rate constant (2.1 × 10(6) M(-1) s(-1)). We also demonstrated that the inhibitory activity of the vioserpin is influenced by the concentration of heparin, and this finding may throw a new light on understanding the molecular evolution of serpins.

Synthesis, biological evaluation and molecular modeling of pseudo-peptides based statine as inhibitors for human tissue kallikrein 5.

Human kallikrein 5 (KLK5) is a potential target for the treatment of skin inflammation and cancer. A new series of statine based peptidomimetic compounds were designed and synthesized through simple and efficient reactions. Some KLK5 inhibitors (2a-c compounds) were identified with nanomolar affinity showing Ki values of 0.12-0.13 µM. Our molecular modeling studies suggest that the inhibitors binding at the KLK5 through H-bond interactions with key residues (mainly His108, Gln242, Gly243, Ser245, and Ser260), disrupting the correlated motions mainly among the Ile67-Tyr127, Glu128-Val187, and Gly237-Ser293 subdomains, which seems to be crucial for KLK5 activity. Therefore, we believe that these findings will significantly facilitate our understanding of the conformational dynamics in the course of KLK5 inhibition and, consequently, the development of more potent molecules as alternative for cancer treatment.

Human tissue kallikreins 3 and 5 can act as plasminogen activator releasing active plasmin.

Human tissue kallikreins (KLKs) are a group of serine proteases found in many tissues and biological fluids and are differentially expressed in several specific pathologies. Here, we present evidences of the ability of these enzymes to activate plasminogen. Kallikreins 3 and 5 were able to induce plasmin activity after hydrolyzing plasminogen, and we also verified that plasminogen activation was potentiated in the presence of glycosaminoglycans compared with plasminogen activation by tPA. This finding can shed new light on the plasminogen/plasmin system and its involvement in tumor metastasis, in which kallikreins appear to be upregulated.

Biological evaluation and docking studies of natural isocoumarins as inhibitors for human kallikrein 5 and 7.

Human kallikrein 5 and 7 (KLK5 and KLK7) are trypsin-like and chymotrypsin-like serine proteases, respectively, and promising targets for the treatment of skin desquamation, inflammation and cancer. In an effort to develop new inhibitors for these enzymes, we carried out enzymatic inhibition assays and docking studies with three isocoumarin compounds. Some promising inhibitors were uncovered, with vioxanthin and 8,8'-paepalantine being the most potent competitive inhibitors of KLK5 (K(i)=22.9 µM) and KLK7 (K(i)=12.2 µM), respectively. Our docking studies showed a good correlation with the experimental results, and revealed a distinct binding mode for the inhibitors at the binding sites of KLK5 and KLK7. In addition, the docking results suggested that the formation of hydrogen bonds at the oxyanion hole is essential for a good inhibitor.