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Leucine-rich repeats and immunoglobulin-like domains 3 (LRIG3) functions as a tumor suppressor in glioma. Although our previous study demonstrated that LRIG3 inhibited angiogenesis via the PI3K/AKT/VEGFA pathway under normoxia, its impact on glioma vascularization under hypoxia remains elusive. Vasculogenic mimicry (VM), an alternative form of neovascularization, plays a pivotal role in glioma progression, particularly within hypoxic tumor microenvironments. This study aimed to investigate the effects of LRIG3 on hypoxia-induced VM in glioma and to elucidate the underlying molecular mechanisms. The effects of LRIG3 on VM were evaluated in vitro using tube formation and 3D spheroid invasion assays. Histological analysis of intracranial xenografts and glioblastoma specimens was performed to assess LRIG3's impact on glioma vascularization in vivo. The underlying mechanisms were investigated using western blot, quantitative real-time PCR (qRT-PCR), and ubiquitination assays. LRIG3 expression was inversely correlated with VM density in the central hypoxic regions of both xenografts and glioblastoma specimens. Under hypoxia, LRIG3 overexpression inhibited the invasion and tube formation capacities of glioma cells, whereas its knockdown promoted these activities. Mechanistically, LRIG3 suppressed VM phenotypes by downregulating Snail2 at the post-translational level, rather than affecting VEGFA. LRIG3 promoted the ubiquitination of Snail2, leading to its proteasomal degradation and destabilization under hypoxia. LRIG3 inhibits hypoxia-induced VM in glioma by facilitating the proteasomal degradation of Snail2 via ubiquitination.

Duck viral hepatitis (DVH), mainly caused by duck hepatitis A virus genotype 3 (DHAV‐3) in China, is an important disease affecting Pekin ducks. Using artificial selection breeding based on genealogical and phenotypic observations, a susceptible line (Z7) and a resistant line (Z8) of Pekin ducks to DHAV‐3 were identified. Here, we performed a genome‐wide analysis to identify selected genes in the genomes of Pekin ducks underlying resistance/susceptible breeding. Following selection, the mortality rate of the Z8 line reduced from 59.2% to 7.8% in the fourth generation (Z8G4), whereas the death rate of the Z7 line increased from 67.5% to 81% in the third generation (Z7G3). Moreover, directed breeding caused the allele frequencies of Z8 and Z7 changing in opposite direction, accompanied by declines in genomic genetic diversity. With the G0 generation as the reference group, a total of 49 selected genes were identified in the Z7‐susceptible population and 109 selected genes in the Z8‐resistant population based on the top 5% FST and PI ratio, and two candidate key genes were further fine‐mapped. Susceptibility selection led to 17 mutations in the LRIG3 gene in the Z7 population (chr1: 169,757,982–169,772,687), and resistance selection led to 134 mutations in the CRHR2 gene in the Z8 population (chr2: 4,190,154–4,273,970). Our results provide new insights into the resistance and susceptibility to DHAV‐3 and lay a theoretical foundation for further research on the mechanism of resistance/susceptibility of Pekin ducks to DHAV‐3. Z8 resistant population and Z7 susceptible population were bred to investigate the artificial selection for DHAV‐3 infection, the genome for regions with extreme genome‐wide distributions of FST and PI ratios were identified, and the LRIG3 gene was found to be selected in the susceptible population and the CRHR2 gene was found to be selected in the resistant population.

Endometrial cancer (EC) is the most common gynecologic malignancy in Sweden and it has various prognostic factors. The LRIG family is a group of three integral surface proteins with a similar domain organization. The study aimed to explore LRIG family as prognostic factor proteins in EC. The initial study cohort included 100 women with EC who were treated at the Department of Women’s and Children’s Health, Karolinska University Hospital Solna, between 2007 and 2012. We assessed the associations between LRIG protein expression and type, grade, and stage of EC, as well as progression-free and overall survival. Immunohistochemistry results revealed that most women in the analytical sample had >50% LRIG1-, LRIG2- and LRIG3-positive cells. A statistically significant association was observed between having a high number of LRIG3-positive cells and superior overall survival (incidence rate ratio = 0.977; 95% confidence interval: 0.958–0.996, p = 0.019). Moreover, positive LRIG3 staining of the cell membrane was associated with reducing in the risk of death (hazard ratio = 0.23; 95% confidence interval: 0.09–0.57). Our results show that LRIG3 expression might be a prognostic factor in EC. The role of LRIG1 and LRIG2 expression remains to be further investigated.

The novel biomarker LRIG3 is a member of the LRIG family (LRIG1-3). While LRIG1 has been associated with favorable prognosis and LRIG2 with poor prognosis in invasive cervical cancer, little is known about the role of LRIG3. The aim of this study was to investigate the expression of LRIG3 in invasive cancer and cervical intraepithelial neoplasia (CIN) for possible correlation with other tumor markers, to hormones and smoking, as a diagnostic adjunct in CIN, and prognostic value in invasive cancer. Cervical biopsies from 129 patients with invasive squamous cell carcinoma and 170 biopsies showing low grade and high grade CIN, or normal epithelium were stained for LRIG3 and 17 additional tumor markers. Among other variables the following were included: smoking habits, hormonal contraceptive use, serum progesterone, serum estradiol, high-risk HPV-infection, menopausal status and ten-year survival. In CIN, high expression of the tumor suppressors retinoblastoma protein, p53, and p16, and E-cadherin (cell-cell interaction), or low expression of CK10, correlated to LRIG3 expression. In addition, progestogenic contraceptive use correlated to high expression of LRIG3. In invasive cancer there was a correlation between expression of the major tumor promoter c-myc and high LRIG3 expression. High LRIG3 expression correlated significantly to presence of high-risk HPV infection in patients with normal epithelium and CIN. There was no correlation between LRIG3 expression and 10-year survival in patients with invasive cell cervical cancer. LRIG3 expression is associated with a number of molecular events in CIN. Expression also correlates to hormonal contraceptive use. The results on expression of other tumor markers suggest that LRIG3 is influenced by or influences a pattern of tumor markers in cancer and precancerous cells. Further studies are needed to elucidate if LRIG3 expression might be clinically useful.

The purpose of this study was to investigate the impact of leucine-rich repeats and immunoglobulin-like domains 3 (LRIG3) on the biological features of bladder cancer cell lines. The plasmids of over-expressed LRIG3 and the blank plasmid serving as control were transfected into the bladder cancer cell lines, T24, EJ and BIU-87, and the expression levels of LRIG3 mRNA and protein were detected by using real-time PCR and Western blotting. The changes in the cell cycle and apoptosis were examined by using flow cytometry. The invasive ability was measured by Transwell assay, and CCK-8 assays were used to measure the proliferation of cells. As compared with the control group, the LRIG3 mRNA and protein expression levels in LRIG3 cDNA-transfected group were raised significantly (P<0.05). The average number of cells with up-regulated LRIG3 passing through the inserted filter was decreased significantly as compared with the control group (P<0.05). Up-regulation of LRIG3 also could inhibit proliferation and induce apoptosis of T24, EJ and BIU-87 cells. Except BIU-87, the T24 and EJ cells transfected with LIRG3 cDNA were arrested in G0/G1 phase compared to the control group (P<0.05). In conclusion, the over-expression of LRIG3 could influence the cell cycle and invasion, inhibit proliferation and induce apoptosis in the three bladder cancer cell lines.

This study examined the effect of silencing LRIG3 expression on the proliferation and apoptosis of bladder cancer T24 cells and explored the role of LRIG3 in the tumorigenesis of bladder cancer. Bladder cancer T24 cells were routinely cultured and pSilencer plasmids were employed to construct LRIG3 eukaryotic expression vector of LRIG3-siRNA, i.e., pSilencer-LRIG3-siRNA. After confirmation, the vector was transfected into HEK293 cells to make a replication-deficient adenovirus, pAd-LRIG3-siRNA, which was then introduced into bladder cancer T24 cells. RT-PCR, Western-blotting were performed to detect the levels of LRIG3 mRNA and proteins. Cells number was determined by using MTT test. Hoechst33258 staining, transmission microscopy, flow cytometery were conducted to examine the cell apoptosis. Three groups included a blank control group, a negative control group (containing non-interfering plasmids) and a pAd-LRIG3-siRNA group. Our results showed that the recombinant pAd-LRIG3-siRNA was successfully transfected into the bladder cancer T24 cells. The siRNA formed by the transcription of the recombinant plasmids resulted in significantly reduced expressions of LRIG3 gene and protein and significantly decreased cell proliferation and growth in the pAd-LRIG3-siRNA group as compared with the control group (P<0.01). The siRNA also caused apoptotic changes of some cells, with the apoptosis rate being (17.69±0.75)%, which was significantly different from that of the control group (P<0.01). It was concluded that recombinant pAd-LRIG3-siRNA plasmids could effectively decrease the expression of LRIG3 mRNA and proteins and, to some extent, inhibit the proliferation and promote the apoptosis of bladder cancer T24 cells. Silencing LRIG3 gene might be a novel alternative for the treatment of bladder cancer.

The effects of RNAi-mediated gene silencing of LRIG3 expression on cell cycle and survival of human glioma cell line GL15 and the possible mechanisms were explored. The plasmids pGenesil2-LRIG3-shRNA1 and pGenesil2-LRIG3-shRNA2 were transfected into GL15 glioma cells respectively by using Metafectine, and the transfected cells that stably suppressed LRIG3 expression were selected by G418. The control cells were transfected with negative control shRNA. The changes in LRIG3 mRNA and protein levels were measured by RT-PCR and Western blot. The apoptosis rate and cell cycle were analyzed by flow cytometry. As compared with the negative shRNA-transfected GL15 cells, LRIG3 mRNA expression in GL15 cells transfected with pGenesil2-LRIG3-shRNA1 and pGenesil2-LRIG3-shRNA2 was silenced by 52.4%, 63.8%, and LRIG3 protein expression was reduced by 50.9% and 67.4% respectively. The LRIG3-specific siRNA transfected cells had higher proliferation rate than control cells. Cell cycle analysis showed that silencing LRIG3 increased the percentage of G2/M phase cells and the proliferation index significantly (P<0.01). Silencing LRIG3 could inhibit the apoptosis of GL15 cells (P<0.05). These findings suggest that the siRNA targeting LRIG3 gene shows a dramatic inhibitory effect on RNA transcription and protein expression, then promoting the proliferation of GL15 cells, arresting GL15 cells in G2/M phase, and suppressing apoptosis of GL15 cells.