Extracts of samples of a Caribbean tunicate (ascidian, sea squirt) of the family Didemnidae inhibit in vitro at low concentrations the growth of DNA and RNA viruses as well as L1210 leukemic cells. The active compounds isolated from the tunicate, didemnins A, B, and C, are depsipeptides, and didemnin B (a derivative of didemnin A) is the component active at the lowest concentration in inhibiting viral replication in vitro and P388 leukemia in vivo.
Although acceptable rates of blastocyst formation are achieved with in vitro production of bovine embryos, several problems still compromise the subsequent development of the fetus and newborn, especially in embryos originating from somatic cell nuclear transfer. Routinely, the potential development of a bovine conceptus is predicted either on blastocyst quality or on various parameters related to the embryonic-fetal development in a foster mother. These methods are either imprecise or costly, highlighting the need for more reliable and practical methods to evaluate early embryonic development and differentiation. Thus, our aim was to improve the in vitro culture of embryos post hatching and to define a stable and repeatable system to monitor the development of bovine embryos. For that, in vitro-derived embryos were cultured in agarose gel tunnels in a modified culture medium (SOFaaci within 10% fetal bovine serum and 27.7 mM glucose). Daily monitoring of embryo length revealed that 56%-67% of the embryos in culture showed rapid growth and elongated until Day 13. Electron microscopy of elongated embryos at Day 14 confirmed successful localization of differentiated cells forming the trophoblast and hypoblast, with the definition of the Rauber layer. In conclusion, a stable culture system of post hatching embryos was first defined and can be used as a model for rapid growth, elongation, and initial differentiation of bovine post hatching embryos produced entirely in vitro.
Extracts of marine species from Baja California and theCaribbean have been examined on shipboard for a variety of bioactlvities and their constituents studied there by gas chromatography! mass spectrometry. A very high proportion of the extracts has been shown to be cytotoxic, a high proportion to be antibacterial or antifungal and a surprisingly large number to be antiviral. Many of these activities have been confirmed in more extensive assays against tumor cells, pathogenic microorganisms and a battery of viruses. A number of the compounds responsible for the activities have been identified, including several new compounds. Of special current interest are the didemnins, depsipeptides isolated from a didemnid tunicate, which inhibit a number of RNA and DNA viruses and exhibit potent cytotoxicity vs. tumor cell lines.
Tilorone hydrochloride characteristically induces an unusually delayed and prolonged interferon response not commonly associated with other synthetic inducers. Maximum circulating interferon levels of 8,000 to 10,000 units/ml were detected 12 hr postinoculation and persisted for up to 30 hr after administration of tilorone. The fact that both oral and intraperitoneal injections of tilorone induce a similar response suggests that this delay is not based on the time required for adsorption from the gastrointestinal tract. In vitro, tilorone failed to induce detectable levels of interferon in either mouse peritoneal lymphocyte or macrophage cell cultures. Furthermore, interferon production could not be detected in the upper gastrointestinal tract after oral administration of tilorone. The striking suppression of interferon production in X-irradiated mice suggested that lymphatic tissue may be a source of interferon in response to tilorone. This concept was not supported, however, by experiments utilizing antilymphocyte serum (ALS). Tilorone induced comparable levels of interferon in both ALS-treated and control animals which had received normal serum, even though the ALS-treated mice had decreased spleen weights and peripheral lymphocyte counts. These data suggest that a radiosensitive cell population other than lymphocytes may be an important factor in the capacity of the host to produce interferon in response to tilorone. Mice which received repeated injections of tilorone developed a severe state of hyporeactivity. The degree of hyporeactivity was particularly striking when compared to that induced by polyinosinic acid:polycytidylic acid and emphasizes one of the major obstacles confronting interferon inducers as chemotherapeutic agents.In 1970, Krueger and Mayer (7,8) reported that tilorone hydrochloride (bis-diethylaminoethyl-fluorenone) induced antiviral activity in mice after oral administration. This antiviral activity was shown to be associated with induction of interferon, thus making tilorone the first synthetic compound found which induced a systemic interferon response when administered by the oral route. A great deal of interest, therefore, has centered on this compound as a possible antiviral, chemotherapeutic agent.These studies were initiated to further define factors which relate to the potential therapeutic efficacy of this compound.
Bovine viral diarrhea virus can persist in semen of acutely infected bulls for several months after exposure.
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