[A case of breast cancer with bone marrow and liver metastases responding completely to low-dose weekly paclitaxel combined with toremifene].

A 36-year-old woman was admitted to our hospital because of general malaise in October 1999. She was diagnosed with bilateral breast cancer with bone marrow and liver metastases. Low-dose weekly paclitaxel (60 mg/body/week) combined with toremifene (120 mg/day) was started in December 1999. Myelofunction was recovered after 2 weeks of chemotherapy (CT), and the primary tumors and cervical/axillary lymphadenopathy disappeared after 4 weeks of CT. Bone marrow and liver metastases was no longer detected after 16 weeks of CT, and the case was evaluated as a complete response (CR). The same therapy has been performed for eight months and no evidence of recurrence has been observed.

Activation of human monocyte cell line U937 via cell surface calreticulin.

U937 cells were found to be activated by an antibacterial peptide, KLKLLLLLKLK-NH2 (L5), to generate superoxide anion (O2-)-like peripheral neutrophils. However, the state of cell surface calreticulin, a possible receptor for L5, was suggested to differ between neutrophils and U937 cells. Unlike the former, the latter ones were activated by anti-C-domain peptide antibody of calreticulin even in the absence of L5 and generated O2- in a GTP-binding protein (G-protein)-dependent manner.

Targeted disruption of a pupal hemocyte protein of Sarcophaga by RNA interference.

Previously, we purified a transmembrane protein with a molecular mass of 120 kDa (p120) that is exclusively expressed in pupal hemocytes of Sarcophaga. In this study, we demonstrated that double-stranded RNA (dsRNA) injected into the larval body cavity effectively inhibited the expression of p120 in pupal hemocytes. Thus, RNA interference (RNAi) was found to be a useful technique for creating pupal hemocytes with a loss-of-function of a specific protein. The p120-less pupal hemocytes generated by RNAi were found to have lost the ability to take up acetylated low density lipoprotein, indicating that p120 is a scavenger receptor specifically expressed on the surface of pupal hemocytes.

Adenosine deaminase activity of insect-derived growth factor is essential for its growth factor activity.

Insect-derived growth factor (IDGF) was originally isolated from conditioned medium of NIH-Sape-4 cells derived from flesh fly embryos. Here we demonstrated that IDGF has adenosine deaminase activity. The substrate specificity of IDGF was similar to that of the mammalian cytoplasmic adenosine deaminase. The adenosine deaminase activity of IDGF was shown to be indispensable for its growth factor activity toward NIH-Sape-4 cells. We found that there are specific binding sites for IDGF on the surface of NIH-Sape-4 cells and that it binds to these sites with a K(d) value of 2.4 x 10(-10) m. We propose that the cell surface binding sites for IDGF are specific receptors modified with an adenosine moiety. When IDGF binds to these receptors, it may deaminate the adenosine moiety, and this process may be prerequisite for the signal transduction via this receptor.

Interaction between ATBP and DmUbc9 in the expression of the Sarcophaga lectin gene.

We previously demonstrated that (A+T)-stretch binding protein (ATBP) and Dorsal-related immunity factor (Dif) are required for the expression of the Sarcophaga lectin gene in SL-2 cells (Aozasa et al., Eur. J. Biochem. 268, 2506-2511, 2001). The present study demonstrates that DmUbc9 interacts with ATBP, and cotransfection of the DmUbc9 vector with ATBP and Dif vectors greatly enhances the expression of the luciferase reporter of the Sarcophaga lectin gene in SL-2 cells. These results suggest that sumoylation of ATBP is involved in the expression of the Sarcophaga lectin gene in this system.

Identification and characterization of an antibacterial peptide of the 26-kDa protease of Sarcophaga peregrina with antibacterial activity.

Previously, we purified a serine protease with a molecular mass of 26 kDa that exhibits potent antibacterial activity from a pupal extract of Sarcophaga peregrina (flesh fly). We divided this protease into 12 peptides and examined their antibacterial activity. A peptide corresponding to residues 155 to 174 (peptide 9) was found to exhibit antibacterial activity comparable to that of the 26-kDa protease. When Escherichia coli was treated with peptide 9, the permeability of both the outer and inner membranes increased, and substrates for beta-lactamase and beta-galactosidase entered the cells, but beta-galactosidase did not leak out of the cells under these conditions. It was suggested that residues 6 to 18 of peptide 9 form an amphiphilic alpha-helix under hydrophobic conditions with an N-terminal basic loop and then interact with acidic phospholipids in the bacterial membranes.

Hepatocyte apoptosis is a pathologic feature of human alcoholic hepatitis.

BACKGROUND/AIMS: The pathogenesis of alcoholic hepatitis (AH) remains poorly understood. Although apoptosis is now recognized as a mechanism of liver injury, the extent and mechanisms of apoptosis in human AH remain unknown. Thus, our aims were to quantify hepatocyte apoptosis in patients with AH, correlate it with disease severity, and identify the mechanisms of apoptosis induction. METHODS: Hepatocyte apoptosis was assessed in 26 patients with AH and 27 controls without liver disease using the TUNEL assay and immunohistochemistry for activated caspase 3. Liver specimens were also graded for disease severity. The expression of the death receptors, Fas and tumor necrosis factor-alpha receptor 1 (TNF-R1), was assessed by immunohistochemistry. RESULTS: In contrast to normal livers, TUNEL- and caspase 3-positive hepatocytes were readily observed in the livers of patients with AH. In the AH group, hepatocyte apoptosis was significantly higher in patients with a serum bilirubin of > 3 mg/dl. Apoptosis was also greater in grade 4 steatohepatitis. The Fas receptor was strongly expressed in hepatocytes in AH, but not in normal livers; the TNF-R1 expression was comparable in both groups. CONCLUSIONS: The present results demonstrate that hepatocyte apoptosis is significantly increased in human AH and justify therapeutic strategies aimed at inhibiting apoptosis in this disease.

Activation of the Sarcophaga lectin gene promoter by (A + T)-stretch binding protein.

Previously, we purified and isolated a cDNA for (A + T)-stretch binding protein (ATBP) that binds to (A + T)-stretches in the 5' upstream region of the Sarcophaga lectin gene [Nakanishi-Matsui, M., Kubo, T. & Natori, S. (1995) Eur. J. Biochem. 230, 396-400]. Here, we used a luciferase reporter to examine the effect of ATBP on transcription of the Sarcophaga lectin gene. Deletion experiments revealed that ATBP activates the Sarcophaga lectin gene in a 5' upstream sequence-dependent manner, and that at least the N-terminal 25 residues, the three Zn-finger domains, an acidic domain and the third hydrophobic domain of ATBP are indispensable for its function. Furthermore, a synergistic effect was detected between ATBP and Dif, suggesting that ATBP is involved in the activation of insect immunity genes.

Cloning of cDNA for cathepsin B mRNA 3'-untranslated-region-binding protein (CBBP), and characterization of recombinant CBBP.

Previously, we purified the cathepsin B mRNA 3'-untranslated-region-binding protein (CBBP) from Sarcophaga and suggested its participation in the translational regulation of cathepsin B mRNA in this insect. In this study, we isolated a full length cDNA for CBBP. CBBP was an RNA-binding protein that contained four RGG boxes and four zinc finger motifs required for RNA binding. CBBP was shown to be localized in both the nuclei and cytoplasm of Sarcophaga hemocytes. Recombinant CBBP bound to the entire region of cathepsin B mRNA and repressed its translation in vitro.

Effects of angiotensin converting enzyme inhibitor and angiotensin II type 1 receptor blocker on cardiac dysfunction induced by isoproterenol in dogs.

We examined whether angiotensin converting enzyme (ACE) inhibitors and angiotensin II type 1 receptor blockers (ARB) prevent isoproterenol (ISO)-induced left ventricular (LV) dysfunction in dogs. The effects of a large dose of ISO, 1 microg/kg/min, 3 h infusion, were investigated in three groups with simultaneous infusion of an ACE inhibitor (quinaprilat), ARB (candesartan) or saline. ISO infusion significantly decreased LV dP/dt, LV ejection fraction and LV fractional shortening, and significantly increased tau, the time constant of isovolume relaxation of LV, and LV end diastolic pressure. All of these changes were significantly attenuated in both the ACE inhibitor and ARB groups, especially in the ARB group. Serum levels of creatinin kinase isoform MB, lactate dehydrogenase and lipid peroxide were significantly increased by ISO. However, the increases in these markers of myocardial damage were significantly diminished by simultaneous infusion of an ACE inhibitor or ARB, especially by ARB. In conclusion, an ACE inhibitor and ARB prevent LV systolic and diastolic dysfunction as well as myocardial damage induced by excess beta-adrenergic stimulation.

Identification of a novel gene, Mblk-1, that encodes a putative transcription factor expressed preferentially in the large-type Kenyon cells of the honeybee brain.

Mushroom bodies (MBs) are considered to be involved in higher-order sensory processing in the insect brain. To identify the genes involved in the intrinsic function of the honeybee MBs, we searched for genes preferentially expressed therein, using the differential display method. Here we report a novel gene encoding a putative transcription factor (Mblk-1) expressed preferentially in one of two types of intrinsic MB neurones, the large-type Kenyon cells, which makes Mblk-1 a candidate gene involved in the advanced behaviours of honeybees. A putative DNA binding motif of Mblk-1 had significant sequence homology with those encoded by genes from various animal species, suggesting that the functions of these proteins in neural cells are conserved among the animal kingdom.

Activation of murine macrophage-like cells by granulocytin.

Granulocytin, a C-type lectin from Sarcophaga peregrina (flesh fly), stimulated glucose consumption and cytokine production by the mouse macrophage-like cell line J774.1. When J774.1 cells were pretreated with tunicamycin, their granulocytin-dependent TNF-alpha production was greatly reduced. These results suggest that the stimulus of granulocytin is transmitted to J774.1 cells via the carbohydrate chain of granulocytin receptors located on their surface.

Male-specific IDGF, a novel gene encoding a membrane-bound extracellular signaling molecule expressed exclusively in testis of Drosophila melanogaster.

We identified a novel gene of Drosophila melanogaster, Male-specific IDGF (MSI), encoding a transmembrane signaling molecule with exclusive expression in the testis. This molecule (MSI) contains a single transmembrane domain and has 35% amino acid identity with insect-derived growth factor (IDGF), a soluble growth factor for embryonic cells of the flesh fly, Sarcophaga peregrina. When MSI was exogenously expressed in Schneiders's line 2 cells, it was shown to be localized on the cell surface and exhibits growth factor activity, suggesting that MSI is a membrane-bound extracellular signaling molecule. Gene expression studies revealed that MSI mRNA was restricted to mature primary spermatocytes, whereas MSI was detected in the cells at the later developmental stages. Analysis using four meiotic arrest mutants, aly, can, mia, and sa suggested that MSI is involved in spermiogenesis, the final differentiation step of spermatogenesis. These results suggest that MSI is an extracellular signaling molecule participating in spermatogenesis and is a new member of the IDGF family.

Hydrolysis and synthesis of substrate proteins for cathepsin L in the brain basement membranes of Sarcophaga during metamorphosis.

Previously, we identified two proteins with molecular masses of 200 and 210 kDa in basement membranes of Sarcophaga imaginal discs as substrates for cathepsin L [Homma, K. and Natori, S. (1996) Eur. J. Biochem. 240, 443-447]. Here we demonstrated that the same proteins were also present in the basement membranes of larval brains. These proteins were suggested to be digested by cathepsin L secreted from the larval brains in response to 20-HE. From the behavior of these proteins during metamorphosis, we concluded that the basement membranes of larval brains are degraded at the early pupal stage and synthesized again at the late pupal stage, coinciding with the timing of brain remodeling that takes place during metamorphosis. Possibly, the transient disappearance of the basement membranes makes brain remodeling easier, and cathepsin L is suggested to play a crucial role in the degradation of the basement membranes.

A novel hemocyte-specific membrane protein of Sarcophaga (flesh fly).

Extensive tissue remodeling takes place during metamorphosis of holometabolous insects. It has been shown that hemocytes play crucial roles in the recognition and elimination of apoptotic cells and larval tissue fragments produced during metamorphosis. We report the immunoaffinity purification, cDNA cloning, and characterization of a prepupal hemocyte membrane protein of Sarcophaga (flesh fly) with a molecular mass of 120 kDa. This protein is a novel type I transmembrane protein with 18 repeats of an epidermal growth factor-like domain in the predicted extracellular region. Expression of the protein was restricted exclusively to prepupal hemocytes. This protein is suggested to be a scavenger receptor for tissue remodeling.

Induced expression of sarcotoxin IA enhanced host resistance against both bacterial and fungal pathogens in transgenic tobacco.

We demonstrate here that induced expression of sarcotoxin IA, a bactericidal peptide from Sarcophaga peregrina, enhanced the resistance of transgenic tobacco plants to both bacterial and fungal pathogens. The peptide was produced with a modified PR1a promoter, which is further activated by salicylic acid treatment and necrotic lesion formation by pathogen infection. Host resistance to infection of bacteria Erwinia carotovora subsp. carotovora and Pseudomonas syringae pv. tabaci was shown to be dependent on the amounts of sarcotoxin IA expressed. Since we found antifungal activity of the peptide in vitro, transgenic seedlings were also inoculated with fungal pathogens Rhizoctonia solani and Pythium aphanidermatum. Transgenic plants expressing higher levels of sarcotoxin were able to withstand fungal infection and remained healthy even after 4 weeks, while control plants were dead by fungal infection after 2 weeks.

Participation of transcription elongation factor XSII-K1 in mesoderm-derived tissue development in Xenopus laevis.

We isolated a cDNA clone for a novel member of the S-II family of transcription elongation factors from Xenopus laevis. This S-II, named XSII-K1, is assumed to be the Xenopus homologue of mouse SII-K1 that we reported previously (Taira, Y., Kubo, T., and Natori, S. (1998) Genes Cells 3, 289-296). Expression of the XSII-K1 gene was found to be restricted to mesoderm-derived tissues such as liver, kidney, and skeletal muscle. Contrary to the general S-II gene, expression of the XSII-K1 gene was not detected in embryos at stages earlier than 11. The animal cap assay revealed that activin A, but not basic fibroblast growth factor, induced expression of the XSII-K1 gene and that it participated in the expression of mesoderm-specific genes such as Xbra and Xalpha-actin. This is the first demonstration that the regulation at the level of transcription elongation is included in the development of mesoderm-derived tissues.

Molecular cloning and characterization of SRAM, a novel insect rel/ankyrin-family protein present in nuclei.

Previously, we purified a 59-kDa protein that binds to the kappaB motif of the Sarcophaga lectin gene. Here we report its cDNA cloning and some of its characteristics as a novel member of the Rel/Ankyrin-family. This protein, named SRAM, contained a Rel homology domain, a nuclear localization signal and 4 ankyrin repeats, but lacked the Ser-rich domain and PEST sequence that Relish contained. We found that SRAM was localized in the nuclei of NIH-Sape-4 cells, which are an embryonic cell line of Sarcophaga. The Sarcophaga lectin gene promoter containing tandem repeats of the kappaB motifs was activated in NIH-Sape-4 cells. In Drosophila mbn-2 cells, Dif alone activated this reporter gene and a cooperative effect was detected when SRAM and Dif were co-transfected, although SRAM alone did not activate it. This is the first report of a Rel/Ankyrin molecule that exists in the nuclei.