Enrofloxacin (EFX) is one of the 2nd generation quinolone antibiotics and is now widely used as a broad-spectrum antibiotic for industrial animals. Previous study showed that EFX reduces the cellular metabolic activity of spleen cells and modulates the inflammatory responses. However, little is known about its toxicity on bone marrow (BM) cells. In this study, BM cells were treated with EFX and cellular metabolic activity, cell death, the change of neutrophil (CD11b+Gr1+ cells) proportion, and antigen uptake ability of granulocytes were measured. Compared to the control, EFX-treated cells showed the decrease of cellular metabolic activity, the increase of cell death, and the decreased proportion of neutrophils. In contrast, the antigen uptake ability of granulocytes in BM cells was increased by EFX. These data suggest that EFX has only limited toxicity on BM cells. And also, EFX is safe on BM cells in a range of concentration, 6.25 – 25 μg/mL. This study can provide available data for the safety or toxicity of EFX.

Disulfiram is a drug used to treat alcohol dependence. Recent studies have shown that disulfiram also has anti-cancer effects. Considering that many anti-cancer agents have side effects, including immunosuppression, it is important to check if disulfiram has some cytotoxicity to immune cells. In this study, mouse spleen cells were treated with disulfiram and the metabolic activity was measured. Disulfiram increased the cell death of spleen cells according to annexin V-FITC/PI staining analysis. In addition, disulfiram decreased the mitochondrial membrane potential of spleen cells. The toxicity of disulfiram was concentration dependent. Interestingly, disulfiram affected the population of lymphocytes and the subset of spleen cells was altered. This study provides clinicians and researchers with valuable information regarding the toxicity of disulfiram to mouse spleen cells, particularly lymphocytes.

The deleted in azoospermia like (DAZL) gene has been identified in many vertebrate species. DAZL shows high homology with deleted in azoospermia (DAZ) genes that identified only in humans, great apes and Old World monkeys, and boule homolog (BOLL) that identified in many vertebrate species. These genes encode RNA binding proteins (RBP), which regulate the post-transcriptional functions of several genes. In humans, DAZ copies are linked to Y chromosome, while DAZL and BOLL are linked to chromosomes 3 and 2, respectively. DAZ copies has been reported to express in prenatal and postnatal germ cells, particularly in the premeiotic spermatogonia. BOLL has been reported to express during the meiotic G2/M transition in germ cells. DAZL has been reported to express in all stages of germ cells. Compared to humans and mice, the detailed functionalities of DAZL is not clear in many vertebrate species. In our studies, we use chickens as an animal model to examine the expression profiling of DAZL gene in germ cells right from the early embryonic development to the adult. Also, we are studying the effects of small interfering RNA (siRNA) mediated knockdown of DAZL and Clustered Regularly Interspaced Short Palindromic Repeat (CRISPR)/CRISPR associated protein 9 (CRISPR/Cas9) mediated knockout of DAZL in the chicken primordial germ cells (PGCs). In the chicken, DAZL is linked to chromosome 2 (2p1.3-p1.2), and encodes a 289 amino acids protein. By in situ hybridization, we detected a strong expression of DAZL in the germ plasm of chicken oocytes. Later, the expression of DAZL was strongly detected in all stages of intrauterine development and post-ovipositional development especially in the PGC specifying cells. Moreover, the expression of DAZL was strong and constant in the male and female germ cells until adult stage. The siRNA mediated knockdown of DAZL significantly reduced the PGCs proliferation and increased the apoptosis in vitro. We examined the knockout efficiency of DAZL using CRISPR/Cas9 technique in chicken DF1 fibroblast cell line, prior to test in the PGCs. The results of T7 endonuclease I (T7E1) assay and subsequent sequencing indicates clear mutations on the DAZL gene in DF1 cells, and the method could be applicable to cause mutations on the DAZL gene in PGCs. In conclusion, chicken DAZL express in all stages of germ cells as a germ line marker, and alteration in the gene expression causes germ cells impairment.

This study was carried out to explore possibilities of cultivating horticultural crops in the air-dome greenhouse in comparison to the common iron-frame greenhouse as the standard. The levels of carbon dioxide and atmospheric pressure measured inside the air-dome greenhouse turned out to be higher than those measured inside the iron-frame greenhouse. Contrastingly, light intensity was relatively weaker inside the air-dome greenhouse due to the air-inflated double layers. Plants of melon and cherry tomato were cultivated from May 2 to August 12, 2016, respectively in the two greenhouses. For melon plants, growth in the air-dome greenhouse effectively increased fruit weight as well as trunk circumference compared to iron-frame greenhouse. Moreover, soluble sugar content of melon fruit was significantly higher when cultivated in the air-dome greenhouse. For cherry tomato plants, fruit yield of cherry tomato was significantly increased inside the air-dome greenhouse. Furthermore, it has been found that the air-dome greenhouse was considerably effective in shortening the growing period of melon and cherry tomato plants in comparison to the iron-frame greenhouse.

Taxol is an anti-cancer agent that stabilizes the microtubules of cancer cells, resulting in inhibition of mitosis and thus preventing the proliferation of cancer cells. However, many anti-cancer agents including taxol work on normal cells as well as cancer cells, resulting in side effects such as immunosuppression. A marine algae-derived sulfated polysaccharide, fucoidan, an anti-cancer agent, also showed immunostimulating effects. This study investigated the effects of fucoidan on taxol-treated spleen cells. Spleen cells were treated with taxol in a concentration-dependent manner and in combination with fucoidan. MTT assay and flow cytometry analysis were performed to measure the viability and activity of treated cells. Two assays demonstrated that taxol induced the death of spleen cells. Fucoidan clearly inhibited the cell death induced by taxol. In addition, fucoidan enhanced the production of nitric oxide in spleen cells, which was decreased by taxol. Taken together, taxol can induce the cell death of spleen cells, a major type of immune cells and fucoidan protects spleen cells from taxol-induced cell death. This finding suggests that taxol and fucoidan can be used in combination for lowering the immunosuppressive effects of taxol.

Polycystic ovarian syndrome (PCOS) is a heterogeneous syndrome associated with follicle growth arrest, dysregulated sex hormone profile, hyperthecosis and insulin resistance. Chemerin, a novel adipokine, is associated with obesity and metabolic syndrome. Although obese women and in PCOS subjects have elevated plasma chemerin levels, whether and how chemerin is involved in the regulation of follicular growth/steroidogenesis and pathogenesis of PCOS is unknown. Our objective is to better understand the complex regulatory mechanisms involved in the control of these processes and gain insights in their dysregulation in the pathogenesis of PCOS. We hypothesize that: (a) hyperandrogenism induces small and medium antral follicle growth arrest and ovarian structural changes, resulting from granulosa cell and oocyte apoptosis and theca cell survival, and (b) chemerin regulates follicular growth and steroidogenesis and contributes to the pathogenesis of PCOS. Using immature rats (day 13～15 for follicle culture and day 21～24 for granulosa cells culture) and a chronically androgenized rat model [dihydrotestosterone (DHT); 83 μg daily, day 21～105] which recapitulates the reproductive and metabolic phenotypes of human PCOS, we have examined the granulosa cell expression patterns of chemerin and its receptor CMKLR1 and their steroidogenic and follicle growth capability. DHT treatment resulted in decreased follicle numbers in preantral to preovulatory stages and absence of corpus luteum, but increased numbers of condensed atypical follicles. Atypical follicles, constituted predominantly of theca cells, exhibited high expression of calpain and down‐regulation of the cytoskeletal protein substrates vimentin, fodrin and β‐tubulin. Granulosa cell aromatase expression was significantly down‐regulated, a response accompanied by increased activated caspase‐3 content and DNA fragmentation. While PTEN levels were considerably higher in granulosa cells in the PCOS rats than controls, phospho‐Akt (Ser473) content was lower. In addition, DHT also activated granulosa cell caspase‐3, decreased XIAP, PARP and phospho‐Akt contents and induced apoptosis in vitro, responses that could be attenuated by forced expression of XIAP. These findings are consistent with our hypothesis that dysregulated follicular growth in PCOS is associated with changes in follicular growth dynamics and follicle cell fate, a consequence of dysregulated interactions of pro‐survival (p‐Akt, XIAP, PARP) and proapoptotic (calpain, PTEN, caspase‐3) modulators in a cell‐specific manner. Chemerin and CMKLR1 were expressed in granulosa cells and negatively regulated by gonadotropin in vivo and in vitro. Serum and ovarian chemerin levels in DHT‐treated rats were elevated, and associated with arrested early antral follicular growth, remodeling of the follicle wall and decreased expression of p450 side‐chain cleavage enzyme (p450- scc), aromatase and hydroxysteroid dehydrogenases. Recombinant chemerin inhibited FSH ‐ induced estradiol secretion in granulosa cells from DHT‐treated rats in vitro. Chemerin also suppressed basal and FSH‐ and GDF9‐induced follicle growth and estradiol/ progesterone production in preantral follicle cultures. Moreover, chemerin suppressed FSH‐induced p450scc/aromatase expression and progesterone/estradiol secretion in immature rat granulosa cells in vitro. These studies demonstrate that chemerin is a novel negative regulator in FSH‐induced follicular growth and steroidogenesis and support the notion that the dysregulation of chemerin expression and function contributes to pathogenesis of PCOS. Our observations also suggest that this chronically androgenized rat model may be useful not only for studies on the long term effects of androgen on folliculogenesis, but also on the pathophysiology of PCOS. * This work was supported by grants from the Canadian Institutes of Health Research (CIHR; MOP‐119381) and the World Class University (WCU) program through the Ministry of Education, Science and Technology funded by the National Research Foundation of Korea (R31‐10056).

Root knot nematode species, such as Meloidogyne hapla, M. incognita, M. arenaria and M. javanica are economically most notorious nematode pests, causing serious damage to the various crops throughout world. In this study, DNA sequence analyses of the D1-D3 expansion segments of the 28S gene in the ribosomal DNA were conducted to characterize genetic variation of the four Meloidogyne species obtained from Korea and United States. PCR-RFLP (Polymerase Chain Reaction-Restriction Fragment Length Polymorphism), SCAR (Sequence Characterized Amplified Region) marker and RAPD (Random Amplification of Polymorphic DNA) also were used to develop the methods for exact and rapid species identification. In the sequence analysis of the D1-D3 expansion segments, only a few nucleotide sequence variation were detected among M. incognita, M. arenaria, and M. javanica, except for M. hapla. The PCR-RFLP analysis that involves amplification of the mitochondrial COII and lrRNA region yielded one distinct amplicon for M. hapla at 500 bp, enabling us to distinguish M. hapla from M. incognita, M. arenaria, M. javanica reproduced by obligate mitotic parthenogenesis. SCAR markers successfully identified the four root knot nematode species tested. We are under development of RAPD primers specific to the three root knot nematodes found in Korea.

Ascidian embryos have become an important model for embryological studies, offering a simple example for mechanisms of cytoplasmic components segregation. It is a well-known example that the asymmetric segregation of mitochondria into muscle lineage cells occurs during ascidian embryogenesis. However, it is still unclear which signaling pathway is involved in this process. To obtain molecular markers for studying mechanisms involved in the asymmetric distribution of mitochondria, we have produced monoclonal antibodies, Mito-1, Mito-2 and Mito-3, that specifically recognize mitochondriarich cytoplasm in cells of the ascidian Halocynthia roretzi embryos. These antibodies stained cytoplasm like reticular structure in epidermis cells, except for nuclei, at the early tailbud stage. Similar pattern was observed in vital staining of mitochondria with DiOC2, a fluorescent probe of mitochondria. Immunostaining with these antibodies showed that mitochondria are evenly distributed in the animal hemisphere blastomeres at cleavage stages, whereas not in the vegetal hemisphere blastomeres. Mitochondria were transferred to the presumptive muscle and nerve cord lineage cells of the marginal zone in the vegetal hemisphere more than to the presumptive mesenchyme, notochord and endoderm lineage of the central zone. Therefore, it is suggested that these antibodies will be useful markers for studying mechanisms involved in the polarized distribution of mitochondria during ascidian embryogenesis.

In animal development, the mechanisms by which localized factors and organelles in egg cytoplasm were exactly distributed into each daughter cell are essential for formation of various cell types. During ascidian Halocynthia roretzi embryogenesis, ooplasmic mitochondria were mainly segregated into muscle and neural precursor cells. At the 32-cell stage, localized mitochondria in the B6.2 blastomeres were preferentially distributed into the B7.4 muscle precursors compared with the B7.3 mesenchyme/ notochord precursors. When the B6.2 blastomeres were isolated from the early 32-cell stage embryos and then allowed to divide 2 times of cell division, the resultant partial embryos showed symmetric distribution of mitochondria, and the partial embryos were composed of equal size cells. In normal development, cell fates of the B7.3 blastomere were correlated with the unequal cleavage of B6.2 lineage cells that normally occurs in the next two-cell division stages to produce a large B8.5 mesenchyme and a small B8.6 notochord cell. Mitochondria are distributed asymmetrically in both cells. When embryos were treated with FGF receptor inhibitor SU5402 and MEK inhibitor U0126 between the 32-cell and the early 64-cell stages, the resultant embryos showed equal cleavage pattern and symmetric distribution of mitochondria in daughter cells of the B6.2 blastomeres. However, blocking of Nodal and Notch signaling did not affect the cell division pattern and mitochondrial distribution in the B6.2 lineage blastomeres between the 32-cell and 110-cell stages. Therefore, it is likely that FGF/MEK signaling is involved in asymmetric distribution of mitochondria and unequal cleavage of the B6.2 lineage blastomeres in ascidian embryo.

Paraneoplastic neurological syndromes (PNS) are the remote effects of cancer on the nervous system. These may affect the nervous system from cerebral cortex to neuromuscular junction and muscle, causing damage to one or multiple areas. Among the various papraneoplastic neuropathies, the classical syndrome of PNS is subacute sensory neuronopathy involving the sensory neuron cell bodies in the dorsal root ganglia. In general, cases with paraneoplastic sensory neuronopathy are associated with small cell lung cancer. The authors experienced a case of an atypical unilateral paraneoplastic sensory neu-ronopathy associated with primary breast adenocarcinoma and lung metastasis, which is worthy of reporting.

Anthocyanins are very important constituent of human diet. In recent years, they have gained much attention due to their antioxidative properties. As the radish (Raphanus sativus L) has rich content of anthocyanins, the study is aimed to develop increased functional radish from selected radish varieties. ‘Bordeux’ is a hybrid variety of breeding between one accession derived from ‘Oharu’ as a maternal variety and ‘Chungpihongsim’ as a paternal variety. In this study, we investigated the new varieties of radish commonly consumed in Republic of Korea for their total phenolic content (TPC) and antioxidant activities using three (DDPH, FRAP and CUPRAC) different assays. The selected radish varieties like ‘Bordeux’, ‘Chungbok’, ‘3209’, ‘Chungwoon’, ‘Oharu’, and ‘Chungpihongsim’ were procured from the company Syngenta Korea. Among the selected radish varieties, ‘Bordeux’ (289 μg/g FW) and ‘Chungpihongsim’ (276 μg/g FW) revealed maximum amount of phenolics; whereas ‘3209’ (103 μg/g FW) and ‘Chungwoon’ (166 μg/g FW) showed the lower amount of phenolics content, respectively. Extracts from these studied radishes showed good to moderate antioxidant activities. The varieties ‘Chungpihongsim’ and ‘Bordeux’ revealed maximum antioxidant activity for all assays as demonstrated. However, some varieties like ‘3209’ and ‘Oharu’ exhibited the lowest antioxidant activity in all the tested assays, viz; DPH, FRAP and CUPRAC in μg TE/g FW, respectively. The antioxidant activities may be attributed to the higher phenolic acid contents as a linear relation was observed between the two components and the antioxidant parameters.