Axonal transport of actin and actin-binding proteins in the rat sciatic nerve

Proteomic comparison of spherical aggregates and adherent cells of cardiac stem cells

BACKGROUND

Previously published papers showed that cardiac stem cells (CSCs) form (cardio)sphere. However, recent studies questioned the significance of the sphere-formation as one of the characteristics of CSCs. We isolated c-kit-positive cardiac stem cells, cultured as bulk (CSC-BC) and characterized them previously. Among them, CSC-BC21 formed an extraordinary number of spheres. Using a clone derived from this bulk culture, we investigated the effect of sphere-formation on differentiation and performed proteomics analysis comparing two statuses, cardiosphere and dish substrate attachment.

METHODS

We performed sphere-forming assay to compare the sphere-forming ability among CSC-BCs. The cloned cells from CSC-BC21, which had distinct sphere-forming ability, were cultured in a differentiation medium (DM) to induce cardiac myocyte differentiation. We performed RT-PCR analysis to investigate if cardiosphere-formation affects cardiac myocyte gene expression level. Furthermore, proteome analysis was performed to compare floating cardiosphere (flCS) and dish-attached cardiosphere-derived cells (daCS).

RESULTS

One of the cloned cells, CSC-21E expressed higher troponin I message than CSC-BC21. Moreover, the message level of troponin I was enhanced when they had experienced cardiosphere prior to the treatment of myocyte differentiation medium. The change from flCS to daCS accompanied up-regulation of chaperones and down regulation of glycolytic and other metabolic enzymes. Calreticulin and Hsp 90 were among the up-regulated chaperons. Calreticulin is known to be an essential component of cardiogenesis.

CONCLUSION

These results suggest that the switch from aggregated sphere to the cell attachment, is important for advancing the cardiac cell differentiation.

Annexin 6 immunoreactivity in select cell populations in the rat brain

We examined the distribution of annexin 6 (ANX6) in rat brain with immunohistochemistry (IHC). Several neuronal cell populations were intensely labeled with the ANX6 monoclonal antibody (MAb), including layer 5 of neocortex, the lateral septum, the lateral hypothalamic area, the red nucleus, and the Purkinje cell layer in cerebellum. Neuronal immunolabeling was localized to the nucleus and the cytosol. Darkly stained ANX6-immunoreactive glia, with the morphology characteristic of astrocytes, were abundant in the hippocampus, substantia nigra reticulata, and cerebellum. Evidence suggests that ANX6 may function in neuronal and glial calcium-dependent processes.

Dendritic cell appearance and differentiation during early and late stages of rat stomach carcinogenesis

Dendritic cell appearance and differentiation during early and late stages of rat stomach carcinogenesis were studied in the pyloric mucosa. Young male rats were given drinking water with or without N-methyl-N'-nitro-N-nitrosoguanidine (MNNG; 100 mg/liter) for 14 days. Use of competitive RT-PCR and northern blotting showed that MNNG exposure induced 3- to 4-fold greater expression of the genes for integrin beta7 and integrin alphaE2 (identical with antigen OX-62, a dendritic cell marker), as well as three cytokines, IL-4, GM-CSF and TNFalpha, in the stomach pyloric mucosa of resistant Buffalo rats compared to sensitive ACI rats. These genes were minimally expressed in control animals. The results confirm the appearance of dendritic cells in the target pyloric mucosa and suggest the possibility that dendritic cell differentiation and maturation are induced by various cytokines, at least in Buffalo rats. Competitive RT-PCR showed expression of integrin alphaE2 and beta7, MHC class II-associated invariant chain (Ii), MHC class II, B7-1, CD28, GM-CSF and TNFalpha genes in all 12 examined stomach adenocarcinomas and adenomas induced in male Lewis and WKY rats with 30 weeks' MNNG exposure, suggesting the presence of dendritic cells in tumors. OX-62 staining and western blotting for OX-62 also confirmed the presence of dendritic cells in tumors. However, the population of dendritic cells in tumors was less than that in the pyloric mucosa after 14 days' MNNG exposure. The present results suggest that immune defense involving dendritic cells is marshaled from the very early initiation stage during rat stomach cancer development, but is downgraded in developed tumors.

Contractile protein system in the asexual stages of the malaria parasite Plasmodium falciparum

F-actin was detected in asexual-stage Plasmodium falciparum parasites by fluorescence microscopy of blood films stained with fluorescent phalloidin derivatives. F-actin was present at all stages of development and appeared diffusely distributed in trophic parasites, but merozoites stained strongly at the poles and peripheries. No filament bundles could be discerned. A similar distribution was obtained by immunofluorescence with 2 polyclonal anti-actin antibodies, one of which was directed against a peptide sequence present only in parasite actin (as inferred from the DNA sequence of the gene). A monoclonal anti-actin antibody stained very mature or rupturing schizonts but not immature parasites. Myosin was identified in immunoblots of parasite protein extracts by several monoclonal anti-skeletal muscle myosin antibodies, as well as by a polyclonal antiserum directed against a consensus conserved myosin sequence (IQ motif). The identity of the polypeptides recognised by these antibodies was confirmed by overlaying blots with biotinylated F-actin. The antiserum and one of the monoclonal antibodies were used in immunofluorescence studies and were found to stain all blood-stage parasites, with maximal intensity towards the poles of merozoites. Our results are consistent with the presence of an actomyosin motor system in the blood-stage malaria parasite.

Functional and genetic analysis of annexin VI

This study is concerned with the determination of the function of the 68kDa calcium-binding protein, annexin VI. Studies on the structure and regulation of the gene include a detailed analysis of annexin VI expressed heterologously in human A431 carcinoma cells. We have recently discovered that annexin VI is subject to a novel growth dependent post-translational modification. Interestingly, the protein exerts a negative effect on A431 cells. This effect was manifested as a partial reversal of the transformed phenotype. We are currently exploring the hypothesis that the post-translational modification of annexin VI is required for sub-cellular targeting, and that correct localisation within the cell is essential for function.