Axl Deficiency Promotes the Neuroinvasion of Japanese Encephalitis Virus by Enhancing IL-1α Production from Pyroptotic Macrophages.

Japanese encephalitis virus (JEV) is a flavivirus that causes Japanese encephalitis (JE), which has an unclear pathogenesis. Despite vaccination, thousands of deaths attributed to JE are reported annually. In this study, we report that mice deficient for Axl, a receptor tyrosine kinase that plays multiple roles in flaviviral infection, displayed greater mortality upon JEV infection. The effect of Axl deficiency on JEV infection was mediated by markedly elevated serum interleukin-1α (IL-1α) levels, which devastated the blood-brain-barrier and promoted viral neuroinvasion within 24 h postinfection. Using an in situ infection model, we showed that dead macrophages were the primary source of observed increased serum IL-1α levels. Axl deficiency enhanced cell death and caused pyroptosis in 80% of JEV-infected macrophages by disrupting phosphatidylinositol 3-kinase (PI3K)-Akt signaling. Intriguingly, the primary effector released by pyroptotic macrophages in our model was IL-1α rather than IL-1ß. Finally, we assessed the effect of an IL-1α antagonist and demonstrated that it effectively prevented the incidence of JE. Our results indicate that Axl plays a protective role in JEV infection, identify IL-1α released by pyroptotic macrophages as a crucial factor promoting JEV neuroinvasion, and suggest that an IL-1α antagonist may be a candidate for JE therapy.IMPORTANCE Japanese encephalitis virus (JEV) is a mosquito-borne flavivirus that causes Japanese encephalitis (JE), the most commonly diagnosed viral encephalitis worldwide. The fatality rate of JE is 20%, and nearly half of the surviving patients develop neuropsychiatric sequelae. Axl is a receptor tyrosine kinase that plays multiple roles in flaviviral infections. Currently, the involvement of Axl in JEV infection remains enigmatic. In this study, we demonstrate that Axl impedes the pathogenesis of severe JE in mice by maintaining blood-brain-barrier (BBB) integrity and restricting viral neuroinvasion. Furthermore, serum IL-1α is a key mediator of this process and is primarily released by JEV-infected pyroptotic macrophages to elicit BBB breakdown, while an IL-1α antagonist can effectively reduce the incidence of severe JE. Our work uncovers the protective role of Axl in antagonizing severe JE and shows that the use of an IL-1α antagonist may be a promising tactic to prevent severe JE.

Damaged male germ cells induce epididymitis in mice.

Epididymitis can be caused by infectious and noninfectious etiological factors. While microbial infections are responsible for infectious epididymitis, the etiological factors contributing to noninfectious epididymitis remain to be defined. The present study demonstrated that damaged male germ cells (DMGCs) induce epididymitis in mice. Intraperitoneal injection of the alkylating agent busulfan damaged murine male germ cells. Epididymitis was observed in mice 4 weeks after the injection of busulfan and was characterized by massive macrophage infiltration. Epididymitis was coincident with an accumulation of DMGCs in the epididymis. In contrast, busulfan injection into mice lacking male germ cells did not induce epididymitis. DMGCs induced innate immune responses in epididymal epithelial cells (EECs), thereby upregulating the pro-inflammatory cytokines such as tumor necrosis factor-α (TNF-α), interleukin-6 (IL-6), and interleukin-1ß (IL-1ß), as well as the chemokines such as monocyte chemotactic protein-1 (MCP-1), monocyte chemotactic protein-5 (MCP-5), and chemokine ligand-10 (CXCL10). These results suggest that male germ cell damage may induce noninfectious epididymitis through the induction of innate immune responses in EECs. These findings provide novel insights into the mechanisms underlying noninfectious epididymitis, which might aid in the diagnosis and treatment of the disease.

Axl is not an indispensable factor for Zika virus infection in mice.

Recently, Zika virus (ZIKV) outbreak has been associated with a sharp increase in cases of Guillain-Barré syndrome and severe fetal abnormalities. However, the mechanism underlying the interaction of ZIKV with host cells is not yet clear. Axl, a receptor tyrosine kinase, is postulated as a receptor for ZIKV entry; however, its in vivo role during ZIKV infection and its impact on the outcome of the disease have not been fully characterized and evaluated. Moreover, there are contradictory results on its involvement in ZIKV infection. Here we utilized Axl-deficient mice (Axl-/-) and their littermates (Axl+/-) to study the in vivo role of Axl in ZIKV infection. Our results showed that both Axl+/- and Axl-/- suckling mice supported the replication of ZIKV and presented clinical manifestations. No significant difference has been found between Axl-deficient mice and their littermates in terms of the survival rate, clinical manifestations, viral load, ZIKV distribution and histopathological changes in major organs. These results therefore indicate that Axl is not an indispensable factor for ZIKV infection in mice.

Feedback regulation of IFN-α/ß signaling by Axl receptor tyrosine kinase modulates HBV immunity.

Hepatitis B virus (HBV) is known to cause age-dependent infection outcomes wherein most infections during young age result in chronicity. The mechanism underlying the differential outcome remains elusive. By using hydrodynamic injection of the replication-competent pAAV-HBV, we established a mouse model in which HBV persistence was generated in 4-5 w/o C57BL/6 young mice, but not in adult mice over 10 w/o. HBV-tolerant young mice expressed higher interferon (IFN)-α/ß levels in hepatocytes and intrahepatic plasmacytoid DCs (pDCs) than adult mice after pAAV-HBV injection. Excessive IFN-α/ß expression in young mice was associated with induction of the Axl regulatory pathway and expansion of intrahepatic Treg cells. In line with these findings, augmented IFN-ß expression increased Axl expression in the liver and HBV persistence in adult mice, whereas IFN-α/ß signaling blockage decreased Axl expression and HBV persistence in young mice. Accordingly, Axl overexpression decreased HBV clearance of adult mice whereas Axl silencing enhanced HBV clearance of young mice. In vitro, IFN-ß priming of pDCs and Axl-overexpressing macrophages enhanced Treg-cell differentiation. These findings suggest that age-dependent HBV chronicity is attributed to IFN-ß-Axl immune regulation, which is selectively induced in young mice by excessive IFN-α/ß production at early stage of HBV infection.

Cloning and characterization of a novel gene SRG-L expressed in late stages of mouse spermatogenic cells.

A cDNA expressed specifically in late stages of mouse spermatogenic cells during spermatogenesis was cloned by using overlapping RT-PCR and RACE. The cDNA contained an open reading frame (ORF) of 2625 base pairs that encoded an 874 amino acids protein. Comparison analysis of amino acid sequence showed 91% and 80% identity to a rat homologue XP-226242 and a monkey homologue BAB63115 respectively. The expression of the mRNA was only observed in pachytene spermatocytes, round, and elongating spermatids. We named this gene as SRG-L (spermatogenesis related gene expressed in the late stages of spermatogenic cells, GenBank accession No. AY352586). The tissue-specific analysis showed that the SRG-L was highly expressed in spleen and testis. The results suggested that SRG-L might play special roles during spermatogenesis, particularly related to meiosis and spermiogenesis. Analysis of the amino acid sequence showed there was a coiled-coil region near the N-terminal region and rich phosphorylation sites, suggesting SRG-L might function as a transmembrane protein mediating signal transduction. This study also demonstrated that gene cloning by RT-PCR was applicable and convenient when its homologous gene was known.

[Cloning of ESTs of spermatogenesis-related genes from early stage spermatogenic cells of mice using a modified DDRT-PCR method].

To avoid the shortcomings of radioactive pollution and high rate of false positives in DDRT-PCR method, the technique have been modified by replacement of radioactive reagents with fluorescent reagents followed by confirming the results using reverse RNA dot blot. The modified DDRT-PCR method was used in this study to clone spermatogenesis-related genes from early stage spermatogenic cells of mice. Primitive spermatogonia were isolated from 6-day-old mice and type B spermatogonia from 9-day-old mice. The purity of isolated cells was over 90%. Total RNA was extracted from the cells, fluorescent differential display technique was performed to screen the differentially expressed genes. Differences in expression of the screened fragments were identified by reverse RNA dot blot. 16 ESTs were selected for sequencing. The analysis results in GenBank/Blast database revealed that 7 of them were novel ESTs, and they were then registered in GenBank. All of them expressed stronger in B spermatogonia than in primitive spermatogonia. 3 of them were chosen to further identify their expression patterns by semi-quantitative RT-PCR. Compared with traditional differential display technique, the modified method used in this study can avoid radioactive pollution and eliminate false positive results. The present study suggests that the gene activation or up-regulation in B spermatogonia may be related to some specific process in the following steps of spermatogenesis.

NYD-SP16, a novel gene associated with spermatogenesis of human testis.

By hybridizing human adult testis cDNA microarrays with human adult and embryo testis cDNA probes, a novel human testis gene NYD-SP16 was identified. NYD-SP16 expression was 6.44-fold higher in adult testis than in fetal testis. NYD-SP16 contains 1595 base pairs (bp) and a 762-bp open reading frame encoding a 254-amino acid protein with 73% amino acid sequence identity with the mouse testis homologous protein. The NYD-SP16 gene was localized to human chromosome 5q14. The deduced structure of the NYD-SP16 protein contains one transmembrane domain, which was confirmed by GFP/NYD-SP16 fusion protein expression in the cytomembrane of the transfected human choriocarcinoma JAR cells, suggesting that it is a transmembrane protein. Multiple tissue distribution indicated that NYD-SP16 mRNA is highly expressed in the testes and pancreas, with little or no expression elsewhere. Further analysis of abnormal expression in infertile male patients revealed complete absence of NYD-SP16 in the testes of patients with Sertoli-cell-only syndrome and variable expression in patients with spermatogenic arrest. Homologous gene expression in mouse testis was confirmed in spermatogenic cells by in situ hybridization. The results of cDNA microarray, in situ hybridization, and semiquantitative polymerase chain reaction in mouse testis of different stages indicated that NYD-SP16 expression is developmentally regulated. These results suggest that the putative NYD-SP16 protein may play an important role in testicular development/spermatogenesis and may be an important factor in male infertility.

[Characterization of expression of the centrosomal protein, Cenexin, in rat spermatogenesis].

The centrosomal protein, Cenexin, is a molecular marker of mature centriole. To elucidate the variability and function of mature centriole in spermatogenesis, the high titer polyclonal antibody against rat cenexin was obtained by immunizing mice with recombinant cenexin which was made up in this study. The expression of cenexin in rat spermatogenesis was carried out by semi-quantitative RT-PCR, immunofluorescence and Western Blot. The results demonstrated that the level of Cenexin mRNA was higher in spermatogonia and spermatocytes, then decreased in following stages, while Cenexin protein was located on one centriole from spermatogonia to spermatids, showing mature centriole existed in these stages. Cenexin protein was localized to the basal body of the flagellum in elongated spermatids and the stained signal disappeared in the most of epidydimal sperms. These results suggested that the expression pattern of cenexin in rat spermatogenesis might be related to the initiation of the flagella formation.

[Expression of rat protamine gene in MEL cells].

OBJECTIVE: To investigate the expression of rat protamine (RP) gene in MEL cells and the effect on cell growth. METHODS: Eukaryotic expression plasmid pCR-3.1-RP was constructed and transfected into MEL cells. The changes of cell growth rate, mitotic index and colony-forming rate in semi-solid medium were investigated. RESULTS: Transfected MEL cells showed lower growth rate, mitotic index and colony-forming rate. Volumes of cells were reduced and reduction of RNA transcription was observed. CONCLUSION: These results suggest that expression of RP in MEL cell may inhibit the cell growth and proliferation.