Primary tumors facilitate metastasis by directing bone marrowderived cells (BMDCs) to colonize the lungs before the arrival of cancer cells. Here, we demonstrate that hypoxia-inducible factor 1 (HIF-1) is a critical regulator of breast cancer metastatic niche formation through induction of multiple members of the lysyl oxidase (LOX) family, including LOX, LOX-like 2, and LOX-like 4, which catalyze collagen cross-linking in the lungs before BMDC recruitment. Only a subset of LOX family members was expressed in any individual breast cancer, but HIF-1 was required for expression in each case. Knockdown of HIF-1 or hypoxia-induced LOX family members reduced collagen cross-linking, CD11b+ BMDC recruitment, and metastasis formation in the lungs of mice after orthotopic transplantation of human breast cancer cells. Metastatic niche formation is an HIF-1-dependent event during breast cancer progression. extracellular matrix | lung metastasis I ntratumoral hypoxia is a common finding that is attributable to inadequate O 2 delivery to regions of rapidly growing cancers that are distant from functional blood vessels (1). Reduced O 2 availability leads to increased activity of hypoxia-inducible factors (HIFs), which consist of an O 2 -regulated HIF-1α or HIF-2α subunit and the constitutively expressed HIF-1β subunit (2, 3). HIF inhibition blocks tumor xenograft growth (2, 4).Metastasis is responsible for 90% of deaths among patients who have breast cancer and involves multiple steps, including cancer cell invasion through ECM, intravasation, extravasation, and colonization of distant organs (5). Recent studies have reported that prior recruitment of bone marrow-derived cells (BMDCs) to the metastatic site promotes subsequent colonization by cancer cells (6). The primary tumor is responsible for BMDC recruitment to the metastatic site. Breast tumors secrete lysyl oxidase (LOX), which localizes at metastatic sites in the lungs and remodels collagen, thereby facilitating BMDC recruitment (7,8). LOX oxidatively deaminates the ε-amino groups of lysine residues, resulting in intramolecular and intermolecular cross-linking of collagen molecules (9). Crosslinking stabilizes collagen by assembly into fibrils and fibers, which enhance ECM tensile strength, leading to focal adhesion formation and PI3K signaling (10). The LOX family is composed of LOX and LOX-like (LOXL) proteins LOXL1-4. So far, only LOX has been implicated in metastatic niche formation (7). In this study, we demonstrate that HIF-1 regulates metastatic niche formation by activating expression of LOX and LOXL proteins. HIF-1 silencing suppresses metastatic niche formation and metastasis regardless of which LOX family member is involved. ResultsHypoxia-Induced LOX/LOXL Expression in Breast Cancer Cell Lines.Two metastatic breast cancer cell lines, MDA-MB-231 (MDA-231) and MDA-MB-435 (MDA-435), as well as a nonmetastatic line, MCF-7, were cultured under standard, nonhypoxic tissue culture conditions of 95% air/5% CO 2 (vol/vol; 20% O 2 ) and under hypoxic culture conditi...
Hepatocellular carcinoma (HCC) is a leading lethal malignancy worldwide. However, the molecular mechanisms underlying liver carcinogenesis remain poorly understood. Over the past two decades, overwhelming evidence has demonstrated the regulatory roles of different classes of non-coding RNAs (ncRNAs) in liver carcinogenesis related to a number of aetiologies, including HBV, HCV and NAFLD. Among the ncRNAs, microRNAs, which belong to a distinct class of small ncRNAs, have been proven to play a crucial role in the post-transcriptional regulation of gene expression. Deregulation of microRNAs has been broadly implicated in the inactivation of tumour-suppressor genes and activation of oncogenes in HCC. Modern high-throughput sequencing analyses have unprecedentedly identified a very large number of non-coding transcripts. Divergent groups of long ncRNAs have been implicated in liver carcinogenesis through interactions with DNA, RNA or proteins. Overall, ncRNAs represent a burgeoning field of cancer research, and we are only beginning to understand the importance and complicity of the ncRNAs in liver carcinogenesis. In this Review, we summarize the common deregulation of small and long ncRNAs in human HCC. We also comprehensively review the pathological roles of ncRNAs in liver carcinogenesis, epithelial-to-mesenchymal transition and HCC metastasis and discuss the potential applications of ncRNAs as diagnostic tools and therapeutic targets in human HCC.
Glucose oxidase (GOX) from Aspergillus niger is a well-characterised glycoprotein consisting of two identical 80-kDa subunits with two FAD co-enzymes bound. Both the DNA sequence and protein structure at 1.9 A have been determined and reported previously. GOX catalyses the oxidation of D: -glucose (C(6)H(12)O(6)) to D: -gluconolactone (C(6)H(10)O(6)) and hydrogen peroxide. GOX is produced naturally in some fungi and insects where its catalytic product, hydrogen peroxide, acts as an anti-bacterial and anti-fungal agent. GOX is Generally Regarded As Safe, and GOX from A. niger is the basis of many industrial applications. GOX-catalysed reaction removes oxygen and generates hydrogen peroxide, a trait utilised in food preservation. GOX has also been used in baking, dry egg powder production, wine production, gluconic acid production, etc. Its electrochemical activity makes it an important component in glucose sensors and potentially in fuel cell applications. This paper will give a brief background on the natural occurrence, functions as well as the properties of glucose oxidase. A good coverage on the diverse uses of glucose oxidase in the industry is presented with a brief outline on the working principles in the various settings. Furthermore, food grade GOX preparations are relatively affordable and widely available; the readers may be encouraged to explore other potential uses of GOX. One example is that GOX-catalysed reaction generates significant amount of heat (~200 kJ/mol), and this property has been mostly neglected in the various applications described so far.
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