Aims: The aim of this study was to report an unusual Edwardsiella tarda and develop an effective method to identify this bacterium.
Methods and Results: During the spring and summer of 2006, an epizootic occurred among cultured turbot (Scophthalmus maximus) in Qingdao, China. A gram‐negative, rod‐shaped bacterium (designated as LTB‐4) was isolated from the infected fish, and was proved to be virulent to turbot. Based on the 16S rDNA sequencing and phenotypic tests, the bacterial pathogen was identified as E. tarda. Unlike those commonly described E. tarda strains, no flagellate was observed. Partial gyrB genes were amplified from E. tarda using the universal primers of gyrB genes and sequenced. The polymerase chain reaction (PCR) primers for the gyrB gene were designed specific to E. tarda. It revealed positive amplification of the gyrB fragment in E. tarda, whereas other bacterial species were negative. In addition, the technique enabled the recognition of E. tarda from diseased fish.
Conclusions: The isolate was identified as E. tarda without flagellate and an effective method was developed to identify E. tarda based on using the gyrB gene as a taxonomic marker.
Significance and Impact of the Study: The unusual E. tarda was first reported in China and the PCR allowed the rapid and sensitive detection of E. tarda.
Metastasis is a major cause of death in patients with colorectal cancer (CRC). Cysteine-rich protein 2 (CSRP2) has been recently implicated in the progression and metastasis of a variety of cancers. However, the biological functions and underlying mechanisms of CSRP2 in the regulation of CRC progression are largely unknown.
Methods:
Immunohistochemistry, quantitative real-time polymerase chain reaction (qPCR) and Western blotting (WB) were used to detect the expression of CSRP2 in CRC tissues and paracancerous tissues. CSRP2 function in CRC was determined by a series of functional tests
in vivo
and
in vitro
. WB and immunofluorescence were used to determine the relation between CSRP2 and epithelial-mesenchymal transition (EMT). Co-immunoprecipitation and scanning electron microscopy were used to study the molecular mechanism of CSRP2 in CRC.
Results:
The CSRP2 expression level in CRC tissues was lower than in adjacent normal tissues and indicated poor prognosis in CRC patients. Functionally, CSRP2 could suppress the proliferation, migration, and invasion of CRC cells
in vitro
and inhibit CRC tumorigenesis and metastasis
in vivo
. Mechanistic investigations revealed a physical interaction between CSRP2 and p130Cas. CSRP2 could inhibit the activation of Rac1 by preventing the phosphorylation of p130Cas, thus activating the Hippo signaling pathway, and simultaneously inhibiting the ERK and PAK/LIMK/cortactin signaling pathways, thereby inhibiting the EMT and metastasis of CRC. Rescue experiments showed that blocking the p130Cas and Rac1 activation could inhibit EMT induced by CSRP2 silencing.
Conclusion:
Our results suggest that the CSRP2/p130Cas/Rac1 axis can inhibit CRC aggressiveness and metastasis through the Hippo, ERK, and PAK signaling pathways. Therefore, CSRP2 may be a potential therapeutic target for CRC.
The long noncoding RNA LINC00839 has been shown to be involved in the progression of some cancer types, such as bladder cancer, prostate cancer, breast cancer, and neuroblastoma. However, if LINC00839 has roles in colorectal cancer (CRC), it has not been elucidated so far. Here, we focus on the biological role and involved mechanisms of LINC00839 in CRC. We show that LINC00839 is selectively upregulated in CRC and locates to the nucleus. High expression of LINC00839 is associated with poor outcomes in CRC patients. Functional experiments show that LINC00839 promotes CRC proliferation, invasion, and metastasis in vitro and in vivo. Mechanistically, LINC00839 recruits Ruvb1 to the Tip60 complex and increases its acetylase activity. LINC00839 guides the complex to the NRF1 promoter and promotes acetylation of lysines 5 and 8 of histones H4, thereby upregulating the expression of NRF1. Subsequently, NRF1 activates mitochondrial metabolism and biogenesis, thereby promoting CRC progression. In summary, our study reports on a mechanism by which LINC00839 positively regulates NRF1, thus promoting mitochondrial metabolism and biogenesis, as well as CRC progression.
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