Author : Thong Cao
Publisher :
ISBN 13 :
Total Pages : 186 pages
Book Rating : 4.:/5 (114 download)
Book Synopsis Receptor Mediated Adhesion of Circulating Cells in Immune Cell Interaction and Cancer by : Thong Cao
Download or read book Receptor Mediated Adhesion of Circulating Cells in Immune Cell Interaction and Cancer written by Thong Cao and published by . This book was released on 2019 with total page 186 pages. Available in PDF, EPUB and Kindle. Book excerpt: Circulating tumor cells (CTCs) disseminating from primary tumor sites travel to distant organs and form secondary tumor sites, known as metastasis. After leaving the primary tumor microenvironment, CTCs enter the circulatory system where they routinely interact with immune cells. This interaction can paradoxically result in both limiting or promoting the metastatic potential of CTCs. The final steps of metastasis involve CTCs invaginating into the underlining tissue and forming secondary tumor sites. One plausible mechanism of CTCs leaving the circulatory system involves a similar process to leukocyte homing - selectin-mediated interaction. The scope of the work presented here can be divided into two parts: (a) exploiting the naturally occurring immune response called NETosis when neutrophils come into contact with cancer cells as a form of cancer therapy, and (b) gaining a better understanding of the mechanism of selectin- ligand interaction that playing a pivotal role in cancer metastasis and leukocyte homing. Immunotherapy is an emerging powerful clinical strategy for cancer therapy. NETosis is an innate immune response elicited by activated neutrophils to fight microbial infections. Activated neutrophils release DNA fibers decorated with anti-microbial proteins called neutrophil extracellular traps (NETs) into the extracellular space to trap and kill surrounding microbes. Here, we show tumor-derived IL-8 released by cancer cells also activates the release of NETs. Until now, there have been no existing technologies that leverage NETs as an anti-tumor drug delivery vehicle. In this study, we describe the re-engineering of neutrophils to express an apoptosis-inducing chimeric protein, supercharged eGFP-TRAIL, on NETs that can ensnare and kill tumor cells while retaining all of their anti-microbial capabilities. We observed significant TRAIL- induced apoptosis in tumor cells captured by TRAIL-decorated NETs. This work demonstrates NETs as a promising technology to deliver protein in response to local cytokine signals. The 3-member (E-, P-, L-) selectin family of cell adhesion molecules facilitates initial leukocyte tethering and subsequent cell rolling during the early stages of the inflammatory response via binding to glycoproteins expressing sialyl LewisX and sialyl LewisA (sLeX/A) to sites of inflammation and trauma. The extracellular microenvironments at these sites often become acidic. We investigated the influence of slightly acidic pH on the binding dynamics of selectins (P-, L-, and E-selectin) to P- selectin glycoprotein ligand-1 (PSGL-1) via computational modeling (molecular dynamics) and experimental rolling assays under shear in vitro. The P-selectin/PSGL-1 binding is strengthened at acidic pH, as evidenced by the formation of a new hydrogen bond (seen computationally) and the observed decrease in the rolling velocities of model cells. In the case of L-selectin/PSGL-1 binding dynamics, the binding strength and frequency increase at acidic pH, as indicated by the greater cell-rolling flux of neutrophils and slower rolling velocities of L-selectin-coated microspheres, respectively. The cell flux is most likely due to an increased population of L-selectin in the high-affinity conformation as pH decreases, whereas the velociti.