Nobuko Tokuda

FABP7 expression in normal and stab-injured brain cortex and its role in astrocyte proliferation

Reactive gliosis, in which astrocytes as well as other types of glial cells undergo massive proliferation, is a common hallmark of all brain pathologies. Brain-type fatty acid-binding protein (FABP7) is abundantly expressed in neural stem cells and astrocytes of developing brain, suggesting its role in differentiation and/or proliferation of glial cells through regulation of lipid metabolism and/or signaling. However, the role of FABP7 in proliferation of glial cells during reactive gliosis is unknown. In this study, we examined the expression of FABP7 in mouse cortical stab injury model and also the phenotype of FABP7-KO mice in glial cell proliferation. Western blotting showed that FABP7 expression was increased significantly in the injured cortex compared with the contralateral side. By immunohistochemistry, FABP7 was localized to GFAP+ astrocytes (21% of FABP7+ cells) and NG2+ oligodendrocyte progenitor cells (62%) in the normal cortex. In the injured cortex there was no change in the population of FABP7+/NG2+ cells, while there was a significant increase in FABP7+/GFAP+ cells. In the stab-injured cortex of FABP7-KO mice there was decrease in the total number of reactive astrocytes and in the number of BrdU+ astrocytes compared with wild-type mice. Primary cultured astrocytes from FABP7-KO mice also showed a significant decrease in proliferation and omega-3 fatty acid incorporation compared with wild-type astrocytes. Overall, these data suggest that FABP7 is involved in the proliferation of astrocytes by controlling cellular fatty acid homeostasis.

Inflammatory and Anti-inflammatory Cytokines Regulate the Recovery from Sublethal X Irradiation in Rat Thymus

Abstract Mizutani, N., Fujikura, Y., Wang, Y-H., Tamechika, M., Tokuda, N., Sawada, T. and Fukumoto, T. Inflammatory and Anti-inflammatory Cytokines Regulate the Recovery from Sublethal X Irradiation in Rat Thymus. Radiat. Res. 157, 281 – 289 (2002). We investigated the regeneration of rat thymus after sublethal X irradiation (6 Gy). The number of thymocytes was much lower on day 3 after irradiation, and many apoptotic cells were observed. However, by day 5, there had been a rapid proliferation of thymocytes. Since cytokines are considered to be important regulatory factors in postirradiation recovery, we performed in vivo cytokine assays using semiquantitative reverse transcriptase-polymerase chain reaction (RT-PCR) and found serial changes in the cytokine message. The messenger RNA (mRNA) expression of the pro-inflammatory cytokines interleukin 1 beta (Il1b), Il6 and tumor necrosis factor alpha (Tnf) was higher than normal on day 3, lower on day 5, and higher again on day 7. In particular, Tnf was completely absent on day 5 and was expressed again on day 7. Of the anti-inflammatory cytokines Il4, transforming growth factor beta (Tgfb) and Il10, only the Il10 message changed substantially. Il10 expression was very high on day 5 but was completely absent on day 7. Thus the Tnf and Il10 messages were expressed alternately. The changes in the distribution of macrophages detected by the immunohistochemical analysis may be related to the changes in the cytokines. Analysis of cytokine messages in the regenerating thymus in vivo may provide new insights into potential therapies for radiation-induced damage.

Interleukin-1 receptor antagonist mRNA expression and the progression of gastric carcinoma.

Interleukin-1 receptor antagonist (IL-1ra), an endogeneous inhibitor of IL-1, plays an immunosuppressive role in vivo by blocking the proinflammatory effects of IL-1. In the present study, we examined whether IL-1ra expression in human gastric carcinoma correlates with tumor progression and/or metastatic potential. The reverse transcription-polymerase chain reaction was used to compare the expression of the secreted form of IL-1ra (sIL-1ra) and the intracellular form of IL-1ra (icIL-1ra) mRNA in tumor and corresponding benign tissue obtained from 38 patients with gastric carcinoma. The incidence of sIL-1ra mRNA expression was significantly higher in tumor (52%) than in corresponding benign tissue (18%) (P = 0.002). On the contrary, icIL-1ra mRNA was detected in all tumors and benign tissues. The expression of sIL-1ra mRNA by malignant tissue correlated positively with both lymph node metastasis (P = 0.008) and liver metastasis (P = 0.015). There was no association between tumor sIL-lra mRNA expression and other clinicopathologic factors. The degree of regional lymph node reaction, such as sinus histiocytosis, in tumors expressing sI-1ra mRNA was significantly weaker than that in tumors without sIL-1ra mRNA expression (5/20 vs. 12/18, P = 0.010). These results demonstrate that the altered expression of sIL-1ra by malignant tissue may be related to the progression of gastric carcinoma via modulating host immune response.

Fatty acid binding protein 7 as a marker of glioma stem cells.

Glioblastomas are the most aggressive brain tumors. Glioblastoma stem cells (GSCs) are thought to be responsible for the recurrence, chemoresistance, and poor prognosis of glioblastoma. Fatty acid binding protein 7 (FABP7), which is a cellular chaperone for a variety of omega‐3 fatty acids, is a known marker for neural stem cells. In this study, using a newly developed anti‐FABP7 antibody and patient‐derived GSC lines, we evaluated the expression of FABP7 in GSCs. Using immunocytochemistry, Western blotting, and qPCR analyses, FABP7 was found to be highly enriched in GSCs and its localization was found in cytosol and nuclei. FABP7 expression was significantly downregulated in differentiated GSCs induced by the addition of serum. In the glioma surgical specimens, FABP7 was highly expressed in the majority of glioblastoma. Double immunostaining for FABP7 and Sox2 showed that FABP7+Sox2+ tumor cells were significantly increased in glioblastoma (grade IV) compared with diffuse astrocytoma (grade II) and anaplastic astrocytoma (grade III). Our data introduces FABP7 as a marker for GSCs and further highlights its possible significance for glioma diagnosis and treatment.

Fatty Acid Binding Protein 3 Is Involved in n–3 and n–6 PUFA Transport in Mouse Trophoblasts

BACKGROUND Low placental fatty acid (FA) transport during the embryonic period has been suggested to result in fetal developmental disorders and various adult metabolic diseases, but the molecular mechanism by which FAs are transported through the placental unit remains largely unknown. OBJECTIVE The aim of this study was to examine the distribution and functional relevance of FA binding protein (FABP), a cellular chaperone of FAs, in the mouse placenta. METHODS We clarified the localization of FABPs and sought to examine their function in placental FA transport through the phenotypic analysis of Fabp3-knockout mice. RESULTS Four FABPs (FABP3, FABP4, FABP5, and FABP7) were expressed with spatial heterogeneity in the placenta, and FABP3 was dominantly localized to the trophoblast cells. In placentas from the Fabp3-knockout mice (both sexes), the transport coefficients for linoleic acid (LA) were significantly reduced compared with those from wild-type mice by 25% and 44% at embryonic day (E) 15.5 and E18.5, respectively, whereas those for α-linolenic acid (ALA) were reduced by 19% and 17%, respectively. The accumulation of LA (18% and 27% at E15.5 and E18.5) and ALA (16% at E15.5) was also significantly less in the Fabp3-knockout fetuses than in wild-type fetuses. In contrast, transport and accumulation of palmitic acid (PA) were unaffected and glucose uptake significantly increased by 23% in the gene-ablated mice compared with wild-type mice at E18.5. Incorporation of LA (51% and 52% at 1 and 60 min, respectively) and ALA (23% at 60 min), but not PA, was significantly less in FABP3-knockdown BeWo cells than in controls, whereas glucose uptake was significantly upregulated by 51%, 50%, 31%, and 33% at 1, 20, 40, and 60 min, respectively. CONCLUSIONS Collectively FABP3 regulates n-3 (ω-3) and n-6 (ω-6) polyunsaturated FA transport in trophoblasts and plays a pivotal role in fetal development.

Reduced size of sebaceous gland and altered sebum lipid composition in mice lacking fatty acid binding protein 5 gene

Fatty acid binding proteins (FABPs) are capable of binding long‐chain FA and are involved in intracellular FA transport and signal transduction. In sebaceous glands, FABP5 is highly expressed in differentiated sebocytes; though, its function remains unclear. In this study, we examined the role of FABP5 in sebocytes using FABP5‐deficient mice. The size of sebaceous glands was significantly reduced, while the sebum volume was increased with altered lipid composition in FABP5‐deficient mice. However, no significant differences were discerned in the expression of proliferation or differentiation markers including Blimp1, c‐myc, Ki67 and peroxisome proliferator‐activated receptors (PPAR)γ between wild‐type and FABP5‐deficient sebaceous glands. The expression of cellular retinoic acid binding protein‐2 (CRABP2) that is a competitor of FABP5 for RA signalling was increased in FABP5‐deficient mice. These results suggest that FABP5 is involved in the regulation of sebaceous gland activity through modulation of cellular lipid signalling and/or metabolism in the sebocytes.

Identification of FABP7 in fibroblastic reticular cells of mouse lymph nodes

Fatty acids and their metabolites regulate immune cell function. The present study was undertaken to examine the detailed distribution of fatty acid binding proteins (FABPs), the cytosolic chaperones of fatty acids, in mouse peripheral immune organs. Using immunohistochemistry, FABP7 was localized to the alpha-smooth muscle actin (SMA)+ fibroblastic reticular cells, which construct the stromal reticula in the T cell areas of the peripheral lymph nodes and spleen. Immunoelectron microscopy showed that FABP7+ cells enclosed the collagen fibers, forming a conduit system, which transport lymph and associated low-molecular-mass proteins. In contrast, FABP5+ cells were distributed throughout the lymph node and contained well-developed lysosome and phagocytic materials within the cytoplasm. The mesenteric lymph nodes of FABP7 knockout mice showed normal histological features, but the percentage of CD4+ cells was significantly increased compared with that in wild-type mice. These data indicate that FABP7 may be involved in T cell homeostasis, possibly by modulating lipid metabolism in fibroblastic reticular cells within the peripheral lymph nodes.

Fatty acid-binding protein regulates LPS-induced TNF-α production in mast cells

There has been increasing evidence for the involvement of fatty acid-binding proteins (FABPs) in the cytokine production of macrophages and dendritic cells probably through the control of cellular lipid metabolism and signal transduction. Since mast cells (MCs) are recently shown to be involved in immune response through modification of cytokine production, it is possible that some FABPs could also be involved in the immune response of MCs. In this study, we found that epidermal-type FABP (E-FABP) was expressed in murine bone marrow-derived MCs (BMMCs). Using BMMCs from genetically E-FABP-null mutated mice, we demonstrated that E-FABP in BMMCs plays a key role in the production of TNF-alpha following lipopolysaccharide (LPS) stimulation. In the in vivo septic peritonitis model (cecal ligation and puncture model), E-FABP-null mice showed a significantly increased mortality compared to wild-type mice. However, no significant difference in antigen-induced cytokine production was observed between wild-type and E-FABP-null BMMCs, and systemic anaphylaxis was equally induced in vivo in both wild-type and E-FABP-null mice. These results suggest that E-FABP is specifically involved in the LPS-induced cytokine production of MCs, and could play a role in the host-defense against bacterial infection, possibly through regulation of TNF-alpha production.

Semiquantitative Detection of Cytokine Messages in X-Irradiated and Regenerating Rat Thymus

Abstract Adachi, Y., Tokuda, N., Sawada, T. and Fukumoto, T. Semiquantitative Detection of Cytokine Messages in X-Irradiated and Regenerating Rat Thymus. Radiat. Res. 163, 400– 407 (2005). We investigated the expression of cytokine mRNA derived from thymocytes or thymic epithelial cells in X-irradiated (8 Gy) and recovering rat thymuses, according to our previous observation (Mizutani et al., Radiat. Res. 157, 281–289, 2002). The changes in mRNA expression level of interleukin 2 (Il2), Il4, tumor necrosis factor α (Tnf), interferon γ (Ifng), and transforming growth factor β (Tgfb) were examined. The mRNA expression of Il2 and Il4 decreased from day 5 to day 14 after irradiation. Thereafter, the expression level of Il2 mRNA recovered to normal control levels; however, the expression of Il4 mRNA tended toward significantly low levels. Tnf mRNA expression decreased on day 5 after irradiation and then showed a gradual increase back to normal control levels. Tgfb mRNA expression did not change significantly. Ifng mRNA expression was transiently enhanced from day 11 to day 14. The mRNA expression levels of Il10 increased significantly from day 3 to day 7 after irradiation. In addition, the mRNA expression of thymic epithelial cell-derived Il7 showed a transient decrease on day 3; however, then it showed a continuous increase from day 5 to day 21, finally reaching twice the normal control levels after X irradiation. These observations suggest that the expression of cytokine messages in the irradiated thymus changed significantly and did not return to normal for a long time after 8 Gy irradiation.

Localization of fatty acid binding proteins (FABPs) in the cochlea of mice.

Various fatty acids (FAs) are involved in many different functions in the organism as a source of energy, as essential ingredients of membranous lipids as well as intracellular signaling molecules. Intracellular fatty acid binding proteins (FABPs) comprise a family of soluble lipid binding proteins with low molecular masses and which can make long chain FAs soluble to allow intracellular translocation in the aqueous cytosol. To clarify the possible involvement of FAs and FABPs in hearing function, the present study investigated the localization of FABPs in the cochlea of adult mice using immunohistochemical procedures. Among various FABP species, H (heart-type)-FABP was localized in inner and outer pillar cells and outer phalangeal cells, while B (brain-type)-FABP was localized in border cells and cells of Hensen, and fibrocytes in the spiral limbus and spiral prominence. In the spiral ganglion, moderate to low H-FABP immunoreactivity was observed in almost all neurons, while B-FABP immunoreactivity was found in satellite cells. The discrete localization of the two FABPs in different non-receptor cells in the Organ of Corti suggests that the FABP species and/or their ligands, FAs, play important roles in the regulation of the hearing function.