STK35L1 regulates host cell cycle-related genes and is essential for Plasmodium infection during the liver stage of malaria.

Protein kinases of both the parasite and the host are crucial in parasite invasion and survival and might act as drug targets against drug-resistant malaria. STK35L1 was among the top five hits in kinome-wide screening, suggesting its role in malaria's liver stage. However, the role of host STK35L1 in malaria remains elusive. In this study, we found that STK35L1 was highly upregulated during the infection of Plasmodium berghei (P. berghei) in HepG2 cells and mice liver, and knockdown of STK35L1 remarkably suppressed the sporozoites' infection in HepG2 cells. We showed that STAT3 is upregulated and phosphorylated during P. berghei sporozoites' infection, and STAT3 activation is required for both the upregulation of STK35L1 and STAT3. Furthermore, we found that ten cell cycle genes were upregulated in the sporozoite-infected hepatocytes. Knockdown of STK35L1 inhibited the basal expression of these genes except CDKN3 and GTSE1 in HepG2 cells. Thus, we identified STK35L1 as a host kinase that plays an obligatory role in malaria's liver stage and propose that it may serve as a potential drug target against drug-resistant malaria.

Thrombin impairs the angiogenic activity of extravillous trophoblast cells via monocyte chemotactic protein-1 (MCP-1): A possible link with preeclampsia.

Cytokines' secretion from the decidua and trophoblast cells has been known to regulate trophoblast cell functions, such as Extravillous trophoblasts (EVTs) cell migration and invasion and remodeling of spiral arteries. Defective angiogenesis and spiral arteries transformation are mainly caused by proinflammatory cytokines and excessive thrombin generation during preeclampsia. Monocyte chemotactic protein-1 (MCP-1), a crucial cytokine, has a role in maintaining normal pregnancy. In this study, we explored whether thrombin regulates the secretion of MCP-1 in HTR-8/SVneo cells; if yes, what is its function? We used HTR-8/SVneo cells, developed from first trimester villous explants of early pregnancy, as the model of EVTs. MCP-1 gene silencing was performed using gene-specific siRNA. qPCR and ELISA were performed to estimate the expression and secretion of MCP-1. Here, we found that thrombin enhanced the secretion of MCP-1 in HTR-8/SVneo cells. Proteinase-activated receptor-1 (PAR-1) was found as the primary receptor, regulating MCP-1 secretion in these cells. Furthermore, MCP-1 secretion is modulated via protein kinase C (PKC) α, ß, and Rho/Rho-kinase-dependent pathways. Thrombin negatively regulates HTR-8/SVneo cells' ability to mimic tube formation in an MCP-1 dependent manner. In conclusion, we propose that thrombin-controlled MCP-1 secretion may play an essential role in normal placental development and successful pregnancy maintenance. Improper thrombin production and MCP-1 secretion during pregnancy might cause inadequate vascular formation and transformation of spiral arteries, which may contribute to pregnancy disorders, such as preeclampsia.

Thrombin stimulates gene expression and secretion of IL-11 via protease-activated receptor-1 and regulates extravillous trophoblast cell migration.

Extravillous trophoblast (EVT) migration and invasion is the crucial step for normal placental development. IL-11 is a cytokine regulating cell migration and invasion in cells and is a critical factor for successful implantation of an embryo. Higher expression of thrombin receptor PAR-1 was reported in early pregnancy. The precise role of thrombin in trophoblast functions is not well understood. In this study, we asked whether thrombin can induce IL-11 secretion in trophoblasts if yes, which physiological cell functions are possibly affected? In this study, HTR-8/SVneo cells, which were originally derived from first-trimester villous explants of early pregnancy were used as the extravillous trophoblast (EVT) model. BeWo cells were used as the cytotrophoblast model. For gene silencing, qPCR and ELISA, each experiment was performed in triplicates for minimum three times. Here, we found that thrombin stimulates IL-11 gene expression and protein secretion in HTR-8/SVneo cells but not in BeWo cells. PAR-1 was the only receptor which was highly expressed in HTR-8/SVneo cells. Thrombin-mediated expression and secretion of IL-11 were mainly activated via PAR-1 receptor. Rac1, but not Rho-kinase activation is required for thrombin-induced IL-11 secretion. We also found that thrombin stimulation significantly enhanced cell migration that was inhibited after silencing the IL-11 gene. In conclusion, this study demonstrates the role of thrombin in regulating human EVT migration via IL-11 secretion. We propose that thrombin might regulate EVT migration through the decidua and spiral artery remodeling. Failure of thrombin-dependent EVT migration results in pregnancy disorder, such as preeclampsia.

Identification of gefitinib off-targets using a structure-based systems biology approach; their validation with reverse docking and retrospective data mining.

Gefitinib, an EGFR tyrosine kinase inhibitor, is used as FDA approved drug in breast cancer and non-small cell lung cancer treatment. However, this drug has certain side effects and complications for which the underlying molecular mechanisms are not well understood. By systems biology based in silico analysis, we identified off-targets of gefitinib that might explain side effects of this drugs. The crystal structure of EGFR-gefitinib complex was used for binding pocket similarity searches on a druggable proteome database (Sc-PDB) by using IsoMIF Finder. The top 128 hits of putative off-targets were validated by reverse docking approach. The results showed that identified off-targets have efficient binding with gefitinib. The identified human specific off-targets were confirmed and further analyzed for their links with biological process and clinical disease pathways using retrospective studies and literature mining, respectively. Noticeably, many of the identified off-targets in this study were reported in previous high-throughput screenings. Interestingly, the present study reveals that gefitinib may have positive effects in reducing brain and bone metastasis, and may be useful in defining novel gefitinib based treatment regime. We propose that a system wide approach could be useful during new drug development and to minimize side effect of the prospective drug.