Hui Cai scite author profile

BackgroundThe Hippo-YAP signaling pathway is altered and implicated as oncogenic in many human cancers. However, extracellular signals that regulate the mammalian Hippo pathway have remained elusive until very recently when it was shown that the Hippo pathway is regulated by G-protein-coupled receptor (GPCR) ligands including lysophosphatidic acid (LPA) and sphingosine 1-phosphophate (S1P). LPA inhibits Lats kinase activity in HEK293 cells, but the potential involvement of a protein phosphatase was not investigated. The extracellular regulators of YAP dephosphorylation (dpYAP) and nuclear translocation in epithelial ovarian cancer (EOC) are essentially unknown.ResultsWe showed here that LPA dose- and time-dependently induced dpYAP in human EOC cell lines OVCA433, OVCAR5, CAOV3, and Monty-1, accompanied by increased YAP nuclear translocation. YAP was involved in LPA-induced migration and invasion of EOC cells and LPA3 was a major LPA receptor mediating the migratory effect. We demonstrated that G13, but not or to a lesser extent G12, Gi or Gq, was necessary for LPA-induced dpYAP and its nuclear translocation and that RhoA-ROCK, but not RhoB, RhoC, Rac1, cdc42, PI3K, ERK, or AKT, were required for the LPA-dpYAP effect. In contrast to results in HEK293 cells, LPA did not inhibit Mst and Lats kinase in OVCA433 EOC cells. Instead, protein phosphatase 1A (PP1A) acted down-stream of RhoA in LPA-induction of dpYAP. In addition, we identified that amphiregulin (AREG), a down-stream target of YAP which activated EGF receptors (EGFR), mediated an LPA-stimulated and EGFR-dependent long-term (16 hr) cell migration. This process was transcription- and translation-dependent and was distinct from a transcription- and YAP-independent short-term (4 hr) cell migration. EOC tissues had reduced pYAP levels compared to normal and benign ovarian tissues, implying the involvement of dpYAP in EOC pathogenesis, as well as its potential marker and/or target values.ConclusionsA novel LPA-LPA3-G13-RhoA-ROCK-PP1A-dpYAP-AREG-EGFR signaling pathway was linked to LPA-induced migration of EOC cells. Reduced pYAP levels were demonstrated in human EOC tumors as compared to both normal ovarian tissues and benign gynecologic masses. Our findings support that YAP is a potential marker and target for developing novel therapeutic strategies against EOC.

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DEVD‐NucView488: a novel class of enzyme substrates for real‐time detection of caspase‐3 activity in live cells

Cai¹,

Mao²,

Aronchik³

et al. 2008

FASEB j.

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Live-cell detection of intracellular enzyme activity requires that substrates are cell-permeable and that the generated products are easily detected and retained in cells. Our objective was to create a novel fluorogenic substrate that could be used for real-time detection of apoptosis in living cells. We have synthesized a highly cell-permeable caspase-3 substrate, DEVD-NucView488, by linking a fluorogenic DNA-binding dye to the caspase-3 recognition sequence that renders the dye nonfunctional. On substrate cleavage, the dye is released and becomes highly fluorescent on binding to DNA. DEVD-NucView488 detected caspase-3 activation within a live-cell population much earlier and with higher sensitivity compared with other apoptosis reagents that are currently available. Furthermore, cells incubated with DEVD-NucView488 exhibited no toxicity and normal apoptotic progression. DEVD-NucView488 is an ideal substrate for kinetic studies of caspase-3 activation because it detects caspase-3 activity in real-time and also efficiently labels DNA in nuclei of caspase-3-activated cells for real-time fluorescent visualization of apoptotic morphology. The strategy utilized in the design of this fluorogenic substrate can be applied in future endeavors to develop substrates for detecting real-time intracellular enzyme activity.

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Correlation of Nrf2, HO-1, and MRP3 in Gallbladder Cancer and Their Relationships to Clinicopathologic Features and Survival

Wang

Zhang

et al. 2010

Journal of Surgical Research

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Colonization byCandidaSpecies of the Oral and Vaginal Mucosa in HIV-Infected and Noninfected Women

Merenstein

Wang

et al. 2013

AIDS Research and Human Retroviruses

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Candidiasis in HIV/AIDS patients continues to be a public health problem. Effective antifungal therapies are few in number and have inherent problems such as selecting for drug-resistant strains of Candida species. To evaluate the state of Candida colonization of the oral and vaginal mucosa, we recruited 80 women, both HIVinfected and HIV-uninfected, from the Women's Interagency HIV Study (WIHS). Diet diaries were collected by participants to examine the role of diet on fungal growth. Baseline studies were initially done in participants that followed the colonization of both mucosal sites over 0-90 days. The most common Candida species from both groups of patients were C. albicans and C. glabrata. Among the HIV-infected cohort, the percentage of participants who were positive for Candida spp. was higher than in the HIV-uninfected control group. Furthermore, the frequency of colonization (1 episode versus > 1 episode) was also increased in the HIV-infected cohort. These data indicate that Candida species remain an important component of the microbial community in both populations.

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Hui Cai

The role of LPA and YAP signaling in long-term migration of human ovarian cancer cells

DEVD‐NucView488: a novel class of enzyme substrates for real‐time detection of caspase‐3 activity in live cells

Correlation of Nrf2, HO-1, and MRP3 in Gallbladder Cancer and Their Relationships to Clinicopathologic Features and Survival

Colonization byCandidaSpecies of the Oral and Vaginal Mucosa in HIV-Infected and Noninfected Women

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