Ken Kusakabe

In vivo electrogene transfer of interleukin-12 inhibits tumor growth and lymph node and lung metastases in mouse mammary carcinomas.

Human breast cancer metastasizes mainly to lymph nodes, lungs, liver, and bone; in the majority of cases, it is the development of metastases which leads to death. In order to suppress mammary cancer metastasis, we applied in vivo electrogene transfer (non‐viral method) as a means of interleukin‐12 (IL‐12) gene therapy on highly metastatic murine mammary cancer model.

Method of specific detection of apoptosis using formamide-induced DNA denaturation assay.

We compared the reliability between apoptosis detection methods, namely, the terminal deoxynucleotidyl transferase-mediated dUTP-digoxigenin nick end labeling (TUNEL) method and formamide-induced DNA denaturation assay using a monoclonal antibody (MAb) to single-stranded DNA (ssDNA) (formamide-MAb assay). Reaction targets in these methods are different: the TUNEL method recognizes free 3′-OH DNA ends, whereas the formamide-MAb assay detects ssDNA itself (25-30 bp). We found that the formamide-MAb assay immunohistochemically detected apoptotic cells, whereas the TUNEL method detected apoptotic cells as well as mitotic and necrotic cells. The TUNEL method recognized not only 3′-OH DNA ends cleaved by DNase during apoptosis but also constitutive physiological nicking that occurs in DNA duplication and histone posttranslational modifications during mitosis and random DNA breaks during necrotic execution. By electron microscopy, the mean labeling density (the number of 3′-OH DNA ends/nuclear area) obtained by the TUNEL method was determined to be consistently higher than that (the number of ssDNAs/nuclear area) obtained by the formamide-MAb assay. On the basis of these findings, we conclude that the formamide-MAb assay was more specific than the TUNEL method for the detection of apoptotic cells using electron microscopy; however, the labeling intensity of the formamide-MAb assay was slightly weaker than that of the TUNEL method.

Distinct role of growth hormone on epilepsy progression in a model of temporal lobe epilepsy.

Temporal lobe epilepsy is a common form of pharmacoresistant epilepsy, in which epileptogenic foci propagate to other regions of the brain from the area of the initial insult. The present study focused on epileptogenesis, that is, the development of the first foci inducing seizures in amygdala‐kindled mice, a model of temporal lobe epilepsy, to find the molecular process promoting the formation of epileptogenic networks. The expression of growth hormone (GH) was up‐regulated along neural circuits during the epileptogenesis, while there was no difference in the pituitary gland. The up‐regulation was associated with increased phosphorylation/activation of signal transducer and activator of transcription 5 and expression of the Serum Response Element‐regulated genes, FBJ osteosarcoma oncogene, early growth response 1, and Jun‐B oncogene, suggesting that expression of GH leads to GH signaling in the hippocampus and cortex. Furthermore, the administration of the hormone into the hippocampus markedly enhanced the progression of kindling. The administration of an inhibitor of its secretion into the hippocampus elicited a delay in the progression. Our results demonstrate directly that regulation via growth hormone has a robust impact in epileptogenesis.

Experimental gene therapy in mammary and urinary bladder cancer using electrogene transfer.

We investigated the effectiveness of in vivo electrogene transfer as a means of therapy in rat urinary bladder carcinoma and in mammary carcinoma models in both athymic and syngeneic mice using the herpes simplex virus 1 thymidine kinase (HSVtk) or IL-12 genes in combination with ganciclovir (GCV). A significant increase in the levels of tissue apoptosis and necrosis was induced with a single injection of HSVtk vector directly into bladder and mammary tumors followed by in vivo transfection and a regimen of intraperitoneal GCV injection. This procedure induced significant selective tumor cell death, characterized by marked inflammation and peripheral macrophage influx. Active caspase-3 was also strongly expressed in areas of cell death, indicating the initiation of apoptosis. This result was confirmed in corollary in vitro studies on a mouse bladder carcinoma cell line in which elevated caspase-3, -8, and -9 activities and decreased mitochondrial membrane potential were observed as a result of transfection with HSVtk and addition of GCV to the medium. In the syngeneic mouse mammary cancer model, we additionally found both tumor volume and metastasis to lymph nodes and lungs to be significantly reduced throughout the 2-month experiment. However, in contrast to their syngeneic counterparts, HSVtk/GCV therapy did not effectively inhibit mammary tumor growth/metastasis in an athymic mouse model, leading us to believe that T-cell-mediated immune responses may participate via the bystander effect in HSVtk/GCV experimental therapy. We subsequently evaluated the antitumor activity of IL-12, which can activate T-cell-mediated immune responses involving macrophages, in the syngeneic mammary tumors and found that IL-12 also significantly suppressed mammary tumor growth and metastasis. We thus suggest that in vivo electrogene transfer is a useful transfection tool in cancer gene therapy and, in addition, we show that T-cell-mediated immune responses may be a critical factor in cancer gene therapy using HSVtk/GCV and IL-12.

Distribution Patterns of Uterine Glands and Embryo Spacing in the Mouse

To clarify the mechanism of implantation, relationship between positioning of the mouse embryo in the uterus and distribution of uterine glands along the long axis of the uterine horn was examined by three‐dimensional remodelling of the uterine endometrium. There were two unique regions in the endometrium. Uterine glands were distributed widely from mesometrial to anti‐mesometrial side in one region. It was localized from lateral to anti‐mesometrial side in another. These different regions were alternately aligned throughout the uterine horn. The number and position of embryos was consistent with that of the latter region. This study suggests that the type of distribution of uterine glands is closely related to the positioning of the embryo in mice.

Perinatal development of the rat kidney: Apoptosis and epidermal growth factor

ABSTRACT  Localization of apoptotic cells in the kidney of perinatal rats was examined by the terminal deoxynucleotidyl transferase–mediated d–UTP–biotin nick end labeling (TUNEL) method and electron microscopy. Perinatal changes in the percentage of kidney cells with DNA fragmentation were determined by flow cytometric analysis. Through observation of two successive sections, the relationship between the localization of the epidermal growth factor receptor (EGFR) positive cells and TUNEL positive cells in the kidney was determined. From fetal day 18 to neonatal day 5, TUNEL positive cells were noted in immature glomeruli, collecting ducts and interstitium. Electron microscopically, chromatin condensed nuclei and apoptotic bodies were seen in the same tissue component as the TUNEL positive cells. The percentage of DNA fragmented cells significantly increased from fetal days 18 to 20 and significantly decreased from fetal days 20 to 22, while they still remained low in the neonatal period. The TUNEL positive cells in immature glomeruli and collecting ducts were not reactive to the EGFR antibody. The TUNEL positive cells were not observed in the proximal tubular cells, which were positive to EGFR antibody. These results indicate that apoptotic cells are present in the kidney throughout the perinatal period in the rat and that EGF plays an important role in perinatal development of the rat kidney.

Effects of leukemia inhibitory factor on lectin-binding patterns in the uterine stromal vessels of mice.

Lectin histochemistry was performed on mouse uteri to determine what effects leukemia inhibitory factor (LIF) has on carbohydrate epitope expressions at the time of implantation. Twenty-two biotinylated lectins were used in this study. Following injection of LIF, specific binding to the apical surface of the uterine glandular epithelium (GE) was recognized by six lectins. Particularly, binding of the lectin from Griffonia (Bandeiraea) simplicifolia was specific to the glandular epithelium close to the luminal epithelium. Succinylated wheat germ agglutinin (WGA), which has specificity for oligosaccharides recognized by WGA without sialic acid residues, showed weaker binding to the uterine luminal epithelium (LE) and the stroma than WGA, suggesting that terminal residues of glyco-conjugates on these tissues may be modified by sialic acids. Lectin binding to the glandular and luminal epithelium was not influenced by LIF. However, three lectins including a lectin from Dolichos biflorus showed specificity for stromal vessels 6h after LIF injection. Since the lectin from D. biflorus binds to neo-vascular vessels, LIF may play a role in regulating maternal angiogenesis directly and/or indirectly during implantation.

Effects of low protein intake on the development of the remaining kidney in subtotally nephrectomized immature rats: expression of inducible and endothelial NO synthase

We examined the effects of low protein intake on the development of the remaining kidney in subtotally (5/6) nephrectomized immature rats. Three-week-old rats were kept on a diet containing either 12% protein (Lp rats) or 18% protein (Np rats) for 4 or 8 weeks after subtotal nephrectomy (SUNx). In Western blot analysis, the endothelial NO synthase (eNOS) protein expression of the Lp rats was significantly higher than that of the Np rats at 4 weeks after SUNx. Immunohistochemically, more inducible NO synthase (iNOS)-positive cells were observed in the Np rats than in the Lp rats 4 weeks after SUNx in the distal tubules. In semiquantitative RT-PCR, the expression of renin mRNA was significantly lower in the Lp rats than in the Np rats at 4 and 8 weeks after SUNx. These findings reveal that protein restriction is effective in preventing renal failure of immature rats and that the changes in the expression levels of renin, eNOS, and iNOS is involved in the process of this prevention.

An increase in apoptosis and reduction in αB-crystallin expression levels in the lens underlie the cataractogenesis of Morioka cataract (MCT) mice

We examined the morphological changes in fibers, localization of apoptotic cells, and protein expression of αB-crystallin in the lens of Morioka cataract (MCT) mice, a novel cataract model. Using a scanning electron microscope, swollen lens fibers and enlarged spaces between lens fibers were observed in the lens of 3-week-old MCT mice. At 2 weeks of age (before cataract), the single-strand DNA (ssDNA)-positive (indicating apoptosis) cell ratio of the lens epithelium was significantly higher in MCT than in wild-type ddY mice. At 2 and 4 weeks of age, αB-crystallin protein expression of the lens in MCT mice was significantly lower than that in wild-type ddY mice. These findings suggest that increase in apoptosis and reduction in αBcrystallin level are involved in the cataractogenesis of MCT mice.

Phagocytosis mechanism of apoptotic granulosa cells regulated by milk-fat globule-EGF factor 8

In the process of ovary sexual maturation, most immature ovarian follicles degrade into atretic follicles accompanied by apoptosis in granulosa cells. Macrophages can recognize apoptotic cells through specific binding with phosphatidylserine (PS), exposed on the surface of apoptotic cells, which is mediated by milk-fat globule-EGF factor 8 (MFG-E8). In the present research, we examined the involvement of the MFG-E8-dependent phagocytosis system in the atretic follicles of developing mouse ovaries. The number of atretic follicles and DNA-fragmented granulosa cells significantly increased in B6C3F1 mice during 2 to 6 weeks. Chromatin-condensed granulosa cells were engulfed by macrophages, which existed in the stroma or atretic follicles, or by neighboring normal granulosa cells. MFG-E8 mRNA increased in ovaries during 2 to 6 weeks, and immunoreactivity of MFG-E8 was detected at the surface of apoptotic cells existing around the antrum. Immunoelectron microscopic study revealed MFG-E8-positive signals on the membrane of apoptotic cells near macrophages, but apoptotic cells engulfed by neighboring granulosa cells showed few signals. Anti-Fas antibody elevated the annexin-V-positive reaction in isolated granulosa cells from 3-week-old mouse ovaries. MFG-E8 seems to act on the phagocytosis of apoptotic granulosa cells via macrophages and contribute to the regression process of atretic follicles.