Role of Litopenaeus vannamei Yin Yang 1 in the Regulation of the White Spot Syndrome Virus Immediate Early Gene ie1.

Yin Yang 1 (YY1) is a multifunctional zinc finger transcription factor that regulates many key cellular processes. In this study, we report the cloning of YY1 from Litopenaeus vannamei shrimp (LvYY1). This study shows that LvYY1 is ubiquitously expressed in shrimp tissues, and knockdown of LvYY1 expression by double-stranded RNA (dsRNA) injection in white spot syndrome virus (WSSV)-infected shrimp reduced both mRNA levels of the WSSV immediate early gene ie1 as well as overall copy numbers of the WSSV genome. The cumulative mortality rate of infected shrimp also declined with LvYY1 dsRNA injection. Using an insect cell model, we observed that LvYY1 activates ie1 expression, and a mutation introduced into the ie1 promoter subsequently repressed this capability. Moreover, reporter assay results suggested that LvYY1 is involved in basal transcriptional regulation via an interaction with L. vannamei TATA-binding protein (LvTBP). Electrophoretic mobility shift assay (EMSA) results further indicated that LvYY1 binds to a YY1-binding site in the region between positions -119 and -126 in the ie1 promoter. Chromatin immunoprecipitation analysis also confirmed that LvYY1 binds to the ie1 promoter in WSSV-infected shrimp. Taken together, these results indicate that WSSV uses host LvYY1 to enhance ie1 expression via a YY1-binding site and the TATA box in the ie1 promoter, thereby facilitating lytic activation and viral replication.IMPORTANCE WSSV has long been a scourge of the shrimp industry and remains a serious global threat. Thus, there is a pressing need to understand how the interactions between WSSV and its host drive infection, lytic development, pathogenesis, and mortality. Our successful cloning of L. vannamei YY1 (LvYY1) led to the elucidation of a critical virus-host interaction between LvYY1 and the WSSV immediate early gene ie1 We observed that LvYY1 regulates ie1 expression via a consensus YY1-binding site and TATA box. LvYY1 was also found to interact with L. vannamei TATA-binding protein (LvTBP), which may have an effect on basal transcription. Knockdown of LvYY1 expression inhibited ie1 transcription and subsequently reduced viral DNA replication and decreased cumulative mortality rates of WSSV-infected shrimp. These findings are expected to contribute to future studies involving WSSV-host interactions.

Regulation of the immediate-early genes of white spot syndrome virus by Litopenaeus vannamei kruppel-like factor (LvKLF).

Kruppel-like factors (KLFs) belong to a subclass of Cys2/His2 zinc-finger DNA-binding proteins, and act as important regulators with diverse roles in cell growth, proliferation, differentiation, apoptosis and tumorigenesis. Our previous research showed that PmKLF from Penaeus monodon is crucial for white spot syndrome virus (WSSV) infection, yet the mechanisms by which PmKLF influences WSSV infection remain unclear. This study cloned KLF from Litopenaeus vannamei (LvKLF), which had 93% similarity with PmKLF. LvKLF formed a dimer via the C-terminal zinc-finger motif. Knockdown of LvKLF expression by dsRNA injection in WSSV-challenged shrimps was found to significantly inhibit the transcription of two important immediate-early (IE) genes, IE1 and WSSV304, and also reduced WSSV copy numbers. Moreover, reporter assays revealed that the promoter activities of these two WSSV IE genes were substantially enhanced by LvKLF. Mutations introduced in the promoter sequences of IE1 and WSSV304 were shown to abolish LvKLF activation of promoter activities; and an electrophoretic mobility shift assay demonstrated that LvKLF binds to putative KLF-response elements (KRE) in the promoters. Taken together, these results indicate that LvKLF transcriptional regulation of key IE genes is critical to WSSV replication.

[Effect on body surface thermograph in patients with myofascial pain syndrome treated with moxibustion on Yanglingquan (GB 34) ].

OBJECTIVE: To compare the immediate effect of moxibustion on Yanglingquan (GB 34) on body surface thermograph between the patients with myofascial pain syndrome (MPS) and healthy people. METHODS: Thirty-five cases of MPS were selected in observation group and 15 cases of healthy people were in control group. ATIR-M301 medical infrared imaging device was used to observe the changes in body surface thermograph before and 15 min after moxibustion on Yanglingquan (GB 34) The qualitative analysis of picture pattern and the quantitative analysis of temperature were integrated to compare the differences between two groups. RESULTS: Concerning to the infrared thermograph expression on the back of MPS cases in observation group, the abnormal thermal zone presented in 88.6% of the cases, mostly distributed in the upper and secondly in the lower back. The spinal thermal line was broken or disappeared ine about 50% of cases. The location of pain complained by 71.4% of cases was coincident with the zone of infrared thermograph expression. There was statistical significant difference in the temperatures difference of the two sides in the upper abnormal thermal zone on the back in observation group as compared with control group (P < 0.001). Body surface thermograph on the back were impacted by moxibustion on Yanglingquan (GB 34) for either MPS patients or healthy people, especially in upper back and rhomboid fossa. Moxibustion on Yanglingquan (GB 34) increased much more apparently the temperature on the upper back in MPS patients as compared with healthy people (P < 0.05). CONCLUSION: Moxibustion on Yanglingquan (GB34) brings the immediate improvements in the back thermograph for MPS patients.