Abstract
Simple SummaryThe extracellular matrix provides an important scaffold for cells and tissues of multicellular organisms. The scaffold not only provides a secure anchorage point, but also functions as a reservoir for signalling molecules, sequestered and released when necessary. A dysregulated extracellular matrix may therefore modulate cellular behaviour, as seen during cancer progression. The extracellular matrix protein nephronectin was discovered two decades ago and found to regulate important embryonic developmental processes. Loss of either nephronectin or its receptor, integrin α8β1, leads to underdeveloped kidneys. Recent findings show that nephronectin is also dysregulated in breast cancer and plays a role in promoting metastasis. To enable therapeutic intervention, it is important to fully understand the role of nephronectin and its receptors in cancer progression. In this review, we summarise the literature on nephronectin, analyse the structure and domain-related functions of nephronectin and link these functions to potential roles in cancer progression.The extracellular matrix protein nephronectin plays an important regulatory role during embryonic development, controlling renal organogenesis through integrin α8β1 association. Nephronectin has three main domains: five N-terminal epidermal growth factor-like domains, a linker region harbouring two integrin-binding motifs (RGD and LFEIFEIER), and a C-terminal MAM domain. In this review, we look into the domain-related functions of nephronectin, and tissue distribution and expression. During the last two decades it has become evident that nephronectin also plays a role during cancer progression and in particular metastasis. Nephronectin is overexpressed in both human and mouse breast cancer compared to normal breast tissue where the protein is absent. Cancer cells expressing elevated levels of nephronectin acquire increased ability to colonise distant organs. In particular, the enhancer-motif (LFEIFEIER) which is specific to the integrin α8β1 association induces viability via p38 MAPK and plays a role in colonization. Integrins have long been desired as therapeutic targets, where low efficiency and receptor redundancy have been major issues. Based on the summarised publications, the enhancer-motif of nephronectin could present a novel therapeutic target.
Highlights
Cells sense extracellular matrix (ECM) changes through cell surface localised receptors, such as integrins
Integrin α8β1 belongs to the RGD-binding group of integrins which recognises proteins containing the tripeptide Arg (R)—Gly (G)–Asp (D), where the RGD-containing ECM protein nephronectin (NPNT) is believed to be the most prominent
NPNT provides a structural foundation for cells through its incorporation into the basement membrane, and triggers intracellular signalling in a spatiotemporal manner that is important during differentiation and development
Summary
The extracellular matrix (ECM) is a complex and dynamic non-cellular component of tissues performing many critical functions. Outside-in signalling is induced through integrin-binding to, e.g., ECM proteins, triggering signalling pathways including the FAK/SRC, PI3K/AKT and MAPK/ERK pathways via the cytoplasmic tail of the integrin [6,7] This gives integrins the power to change both cell morphology, motility and gene expression through ECM binding. NPNT provides a structural foundation for cells through its incorporation into the basement membrane, and triggers intracellular signalling in a spatiotemporal manner that is important during differentiation and development. Such processes are often exploited by cancer cells and they are important to fully understand to enable therapeutic intervention. We will use the name nephronectin (NPNT)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
