Immunological properties of Fc receptor on lymphocytes. 1. Functional differences between Fc receptor-positive and negative lymphocytes in humoral immune responses.

Using an EA rosetting system, it was observed that Fc receptors (FcR) were present on the surface of T cells as well as B cells, and that functional differences existed between FcR-positive (FcR⁺) and FcR-negative (FcR^?) cells in both T and B cells in in vivo humoral immune responses. Approximately 15% of splenic T cells obtained by nylon wool passage are FcR⁺. The number of surface immunoglobulinbearing cells as detected by immunofluorescent staining accounted for less than 10% of these FcR⁺ cells. FcR⁺ and FcR^? T+B-cell populations obtained from spleens contain 60 and 20% of surface immunoglobulin-positive cells, respectively. In the adoptive primary response in which horse RBC and dinitrophenyl-conjugated dextran (DNP-DE) were used as T-dependent and T-independent antigens, respectively, the majority of precursor B cells were FcR^?. In the secondary response using hapten-primed B cells and carrier-primed T cells, the majority of memory B cells for a haptenic determinant were also FcR^?. Furthermore, the majority of functional cells exerting helper activity in the same hapten-carrier system are FcR^? cells, and FcR⁺ T cells collaborate much less effectively with either memory B cells or helper FcR^? T cells.     

CD83+CCR7+ NK cells induced by interleukin 18 by dendritic cells promote experimental autoimmune uveitis

Natural killer (NK) cells have been reported to play a pathological role in autoimmune uveitis. However, the mechanisms regarding NK cells in uveitis and factors that affect NK‐cell activation in this condition remain unclear. Here, we report that the number of CD3^‐NK1.1⁺CD83⁺CCR7⁺ cells is increased in the inflamed eyes within a mouse model of experimental autoimmune uveitis (EAU), and these cells express elevated levels of NKG2D, CD69 and IFN‐γ. Adoptively transferring CD83⁺CCR7⁺NK cells aggravates EAU symptoms and increases the number of CD4⁺IFN‐γ⁺T cells and dendritic cells (DCs) within the eye. These CD83⁺CCR7⁺NK cells then promote the maturation of DCs and IFN‐γ expression within T cells as demonstrated in vitro. Furthermore, IL‐18, as primarily secreted by DCs in the eyes, is detected to induce CD83⁺CCR7⁺NK cells. In EAU mice, anti‐IL‐18R antibody treatment also decreases retinal tissue damage, as well as the number of infiltrating CD83⁺CCR7⁺NK cells, T cells and DCs in the inflamed eyes and spleens of EAU mice. These results suggest that CD83⁺CCR7⁺NK cells, as induced by IL‐18 that primarily secreted by DCs, play a critical pathological role in EAU. Anti‐IL‐18R antibody might serve as a potential therapeutic agent for uveitis through its capacity to inhibit CD83⁺CCR7⁺NK cells infiltration.     

B Cells Contribute to Heterogeneity of IL-17 Producing Cells in Rheumatoid Arthritis and Healthy Controls

Secretion of the proinflammatory cytokine Interleukin-17A (IL-17A) is the hallmark of a unique lineage of CD4 T cells designated Th17 cells, which may play a crucial role in the pathogenesis of rheumatoid arthritis (RA) and many autoimmune diseases. Recently, IL-17-producing cells other than T cells have been described, including diverse innate immune cells. Here, we show that the cellular sources of IL-17A in RA include a significant number of non-T cells. Multicolour fluorescence analysis of IL-17-expressing peripheral blood mononuclear cells (PBMC) revealed larger proportions of IL-17⁺CD3^- non-T cells in RA patients than in healthy controls (constitutive, 13.6% vs. 8.4%, and after stimulation with PMA/ionomycin 17.4% vs. 7.9% p < 0.001 in both cases). The source of IL-17 included CD3^-CD56⁺ NK cells, CD3^-CD14⁺ myeloid cells as well as the expected CD3⁺CD4⁺ Th17 cells and surprisingly a substantial number of CD3^-CD19⁺ B cells. The presence of IL-17A-expressing B cells was confirmed by specific PCR of peripheral MACS-sorted CD19⁺ B cells, as well as by the analysis of different EBV-transformed B cell lines. Here we report for the first time that in addition to Th17 cells and different innate immune cells B cells also contribute to the IL-17A found in RA patients and healthy controls.     

Dendritic cells reduce number and function of CD4+CD25+ cells in cytokine-induced killer cells derived from patients with pancreatic carcinoma

Aim and background: CD4⁺CD25⁺ cells are described as professional regulatory/suppressor T cells that are crucial for the prevention of spontaneous autoimmune diseases. They play an important role in maintaining a balanced peripheral immune system. On the other hand, it has been suggested that regulatory T cells (Treg) suppress antitumor immune responses after tumor-specific vaccinations. Therefore, we determined the percentage of regulatory T cells in cytokine-induced killer (CIK) cells, an effector cell population with high impact for adoptive immunotherapeutic strategies. Results: CIK cells showed strong induction of CD4⁺CD25⁺ cells with high secretion of interleukin 10 (IL-10) after unspecific stimulation of the TCR complex and stimulation with interleukin 2. Depletion of CD25⁺ cells led to an increase in cytotoxic activity and a reduction of IL-10 release. A more pronounced reversal of suppression could be induced by coculture of CIK cells with dendritic cells (DCs). After coculture of CIK cells with DCs, the number of CD4⁺CD25⁺ cells as well as the IL-10 concentration in the supernatant decreased, and the cytotoxic activity against pancreatic carcinoma cells increased. This was shown for cells from healthy donors as well as for cells from patients with pancreatic carcinoma. Conclusion: Our established effector cells possess some regulatory features induced by unspecific TCR-activation that could be prevented by coculture with DCs. CIK cells have desirable properties for immunotherapeutical approaches, especially after coculture with DCs, which could be used additionally for induction of a specific immune response.     

CD4+CD62L+ Central Memory T Cells Can Be Converted to Foxp3+ T Cells

The peripheral Foxp3⁺ Treg pool consists of naturally arising Treg (nTreg) and adaptive Treg cells (iTreg). It is well known that naive CD4⁺ T cells can be readily converted to Foxp3⁺ iTreg in vitro, and memory CD4⁺ T cells are resistant to conversion. In this study, we investigated the induction of Foxp3⁺ T cells from various CD4⁺ T-cell subsets in human peripheral blood. Though naive CD4⁺ T cells were readily converted to Foxp3⁺ T cells with TGF-β and IL-2 treatment in vitro, such Foxp3⁺ T cells did not express the memory marker CD45RO as do Foxp3⁺ T cells induced in the peripheral blood of Hepatitis B Virus (HBV) patients. Interestingly, a subset of human memory CD4⁺ T cells, defined as CD62L⁺ central memory T cells, could be induced by TGF-β to differentiate into Foxp3⁺ T cells. It is well known that Foxp3⁺ T cells derived from human CD4⁺CD25^- T cells in vitro are lack suppressive functions. Our data about the suppressive functions of CD4⁺CD62L⁺ central memory T cell-derived Foxp3⁺ T cells support this conception, and an epigenetic analysis of these cells showed a similar methylation pattern in the FOXP3 Treg-specific demethylated region as the naive CD4⁺ T cell-derived Foxp3⁺ T cells. But further research showed that mouse CD4⁺ central memory T cells also could be induced to differentiate into Foxp3⁺ T cells, such Foxp3⁺ T cells could suppress the proliferation of effector T cells. Thus, our study identified CD4⁺CD62L⁺ central memory T cells as a novel potential source of iTreg.     

Growth and DNA synthesis in embryonic chick heart cells, in vivo and in vitro

On the basis of cell shape, refractility under phase optics, spontaneous beating and nucleolar number, two cell types have been distinguished in embryonic heart cell cultures: M cells (myoblastlike) and F cells (fibroblast-like). However, by different criteria, more than two cell types have been found in the heart in vivo. In the present study, heart cell types are redefined by properties which can be used for identifying cells both in vitro and in vivo. Trypsin-dissociated cells from 7-day chick hearts were cultured for 24 h. PAS staining indicated that all M (thick, refractile) cells contain glycogen (gly⁺), while most F (spread) cells do not (gly⁻). Under the electronmicroscope, only gly⁺ cells contain myofibrils; most of these cells beat spontaneously in culture. Gly⁻ cells do not beat. Gly⁺ cells with myofibrils as well as gly⁻ cells are found in the inoculum and in the heart in vivo. The ultrastructure of gly⁺ cells in vitro and of muscle cells in the myocardium in vivo is similar. Therefore, it is concluded that gly⁺ cells in culture are derived from the myocardium (muscle) of the heart. Gly⁻ cells are apparently derived from the epicardium, the endocardium and the endothelial lining of blood vessels.     

Generation of Dendritic Cells from Fresh and Frozen Cord Blood CD34Cells

Dendritic cells (DCs) are professional antigen-presenting cells that are required for the initiation of the immune response. DCs have been shown to be generated from CD34⁺pluripotent hematopoietic progenitor cells in the bone marrow and cord blood (CB), but relatively little is known about the effect of cryopreservation on functional maturation of DCs from hematopoietic stem cells. In this work we report the generation of DCs from cryopreserved CB CD34⁺cells. CB CD34⁺cells were cryopreserved at −80°C for 2 days. Cryopreserved CB CD34⁺cells as well as freshly isolated CB CD34⁺cells cultured with granulocyte—macrophage colony-stimulating factor (GM-CSF)/stem cell factor (SCF)/tumor necrosis factor-α (TNF-α) for 14 days gave rise to CD1a⁺/CD4⁺/CD11c⁺/CD14⁻/CD40⁺/CD80⁺/CD83⁺/CD86⁺/HLA-DR⁺cells with dendritic morphology. DCs derived from cryopreserved CB CD34⁺cells showed a similar endocytic capacity for fluorescein isothiocyanate-labeled dextran and lucifer yellow when compared with DCs derived from freshly isolated CB CD34⁺cells. Flow cytometric analysis revealed that two CC chemokine receptors (CCRs), CCR-1 and CCR-3, were expressed on the cell surface of DCs derived from both cryopreserved and freshly isolated CB CD34⁺cells, and these DCs exhibited similar chemotactic migratory capacities in response to regulated on activation normal T-cell expressed and secreted. DCs derived from cryopreserved as well as freshly isolated CB CD34⁺cells were more efficient than peripheral blood mononuclear cells in the primary allogeneic T-cell response. These results indicate that frozen CB CD34⁺cells cultured with GM-CSF/TNF-α/SCF gave rise to dendritic cells which were morphologically, phenotypically and functionally similar to DCs derived from fresh CB CD34⁺cells.     

The peripheral chimerism of bone marrow–derived stem cells after transplantation: regeneration of gastrointestinal tissues in lethally irradiated mice

Bone marrow–derived cells represent a heterogeneous cell population containing haematopoietic stem and progenitor cells. These cells have been identified as potential candidates for use in cell therapy for the regeneration of damaged tissues caused by trauma, degenerative diseases, ischaemia and inflammation or cancer treatment. In our study, we examined a model using whole-body irradiation and the transplantation of bone marrow (BM) or haematopoietic stem cells (HSCs) to study the repair of haematopoiesis, extramedullary haematopoiesis and the migration of green fluorescent protein (GFP⁺) transplanted cells into non-haematopoietic tissues. We investigated the repair of damage to the BM, peripheral blood, spleen and thymus and assessed the ability of this treatment to induce the entry of BM cells or GFP⁺lin⁻Sca-1⁺ cells into non-haematopoietic tissues. The transplantation of BM cells or GFP⁺lin⁻Sca-1⁺ cells from GFP transgenic mice successfully repopulated haematopoiesis and the haematopoietic niche in haematopoietic tissues, specifically the BM, spleen and thymus. The transplanted GFP⁺ cells also entered the gastrointestinal tract (GIT) following whole-body irradiation. Our results demonstrate that whole-body irradiation does not significantly alter the integrity of tissues such as those in the small intestine and liver. Whole-body irradiation also induced myeloablation and chimerism in tissues, and induced the entry of transplanted cells into the small intestine and liver. This result demonstrates that grafted BM cells or GFP⁺lin⁻Sca-1⁺ cells are not transient in the GIT. Thus, these transplanted cells could be used for the long-term treatment of various pathologies or as a one-time treatment option if myeloablation-induced chimerism alone is not sufficient to induce the entry of transplanted cells into non-haematopoietic tissues.     

CD146 positive human dental pulp stem cells promote regeneration of dentin/pulp-like structures

CD146 and STRO-1 are endothelial biomarkers that are co-expressed on the cellular membranes of blood vessels within human dental pulp tissue. This study characterized the percentage of dentin-like structures produced by CD146-positive (CD146⁺) human dental pulp stem cells (DPSCs), compared with their CD146-negative (CD146^?) counterparts. DPSC populations were enriched using magnetic-activated cell sorting (MACS), yielding CD146⁺ and CD146^? cells, as well as mixtures composed of 25% CD146⁺ cells and 75% CD146^? cells (CD146^+/?). Cell growth assays indicated that CD146⁺ cells exhibit an approximate 3–4 h difference in doubling time, compared with CD146^? cells. Cell cycle distributions were determined by flow cytometry analysis. The low percentage of CD146⁺ cells’ DNA content in G₀/G₁ phase were compared with CD146^? and non-separated cells. In contrast to CD146^? and non-separated cells, prompt mineralization was observed in CD146⁺ cells. Subsequently, qRT-PCR revealed high mRNA expression of CD146 and Alkaline phosphatase in mineralization-induced CD146⁺ cells. CD146⁺ cells were also observed high adipogenic ability by Oil red O staining. Histological examinations revealed an increased area of dentin/pulp-like structures in transplanted CD146⁺ cells, compared with CD146^? and CD146^+/? cells. Immunohistochemical studies detected dentin matrix protein-1 (DMP1) and dentin sialophosphoprotein (DSPP), as well as human mitochondria, in transplanted DPSCs. Co-expression of CD146 and GFP indicated that CD146 was expressed in transplanted CD146⁺ cells. CD146⁺ cells may promote mineralization and generate dentin/pulp-like structures, suggesting a role in self-renewal of stem cells and dental pulp regenerative therapy.     

Isolation and characterization of amphotericin B-resistant cell lines in Chinese hamster cells

Amphotericin B is a polyene macrolide antibiotic which interacts specifically with steroids in mammalian cell membranes. Amphotericin B-resistant (AMB^r) lines of stable phenotype have been isolated from cultured Chinese hamster (V79) cells. Three AMB^r clones (AMB^r-1, -2 and -3) isolated independently after treatment with nitrosoguanidine were resistant to ≥150 μg/ml of the antibiotic, while DNA synthesis as well as the colony-forming ability of the parental V79 cells was blocked by >80% of control in the presence of 20–50 μg/ml amphotericin B. The AMB^r cell line also exhibited increased resistance to other polyene macrolide antibiotics such as nystatin and pentamycin. Other agents, however, such as cytosine arabinoside or ricin, blocked DNA synthesis in AMB^r cells to the same extent as in V79 cells. The amphotericin B resistance phenotype was stably retained even after AMB^r cells were cultured in the absence of the drug for over 200 generations. The content of free cholesterol or its esters was significantly decreased in all three resistant clones. Furthermore, cholesterol synthesis from acetate as well as mevalonate was partly defective in AMB^r cells, compared with that in V79 cells.     

Circulating CXCR5+CD4+ T Follicular-Like Helper Cell and Memory B Cell Responses to Human Papillomavirus Vaccines

Through the interaction of T follicular helper (Tfh) cells and B cells, efficacious vaccines can generate high-affinity, pathogen-neutralizing antibodies, and memory B cells. Using CXCR5, CXCR3, CCR6, CCR7, PD1, and ICOS as markers, Tfh-like cells can be identified in the circulation and be classified into three functionally distinct subsets that are PD1⁺ICOS⁺, PD1⁺ ICOS^-, or PD1^-ICOS^-. We used these markers to identify different subsets of CXCR5⁺CD4⁺ Tfh-like cells in response to highly immunogenic and efficacious vaccines for human papillomaviruses (HPV): Cervarix and Gardasil. In this small study, we used PBMC samples from 11 Gardasil recipients, and 8 Cervarix recipients from the Vaccine Research Center 902 Study to examine the induction of circulating Tfh-like cells and IgD^-CD38^HiCD27⁺ memory B cells by flow cytometry. PD1⁺ICOS⁺ CXCR3⁺CCR6^-CXCR5⁺CD4⁺ (Tfh1-like) cells were induced and peaked on Day (D) 7 post-first vaccination, but not as much on D7 post-third vaccination. We also observed a trend toward increase in PD1⁺ICOS⁺ CXCR3^-CCR6^-CXCR5⁺CD4⁺ (Tfh2-like) cells for both vaccines, and PD1⁺ICOS⁺ CXCR3^-CCR6⁺CXCR5⁺CD4⁺ (Tfh17-like) subset was induced by Cervarix post-first vaccination. There were also minimal changes in the other cellular subsets. In addition, Cervarix recipients had more memory B cells post-first vaccination than did Gardasil recipients at D14 and D30. We found frequencies of memory B cells at D30 correlated with anti-HPV16 and 18 antibody titers from D30, and the induction levels of memory B cells at D30 and PD1⁺ICOS⁺Tfh1-like cells at D7 post-first vaccination correlated for Cervarix. Our study showed that induction of circulating CXCR5⁺CD4⁺ Tfh-like subsets can be detected following immunization with HPV vaccines, and potentially be useful as a marker of immunogenicity of vaccines. However, further investigations should be extended to different cohorts with larger sample size to better understand the functions of these T cells, as well as their relationship with B cells and antibodies.     

Responsiveness of Thymus Cells to Syngeneic and Allogeneic Lymphoid Cells

THE thymus is necessary for the normal development of cell-mediated immunity in mice as shown by the immunological defects after neonatal thymectomy¹. Thymus cells themselves can be stimulated by allogeneic lymphoid cells in mixed leucocyte reaction (MLR)² and become killer cells or cytotoxic lymphocytes after stimulation with allogeneic spleen cells in vitro (H. Wagner and M. Feldmann, unpublished work) and in vivo^3,4. This suggests that the thymus as well as peripheral lymphoid tissues contain T cells which can be stimulated by foreign histocompatibility antigen to divide and differentiate into the cytotoxic lymphocytes which mediate cellular immunity. There have been suggestions that thymus cells might be stimulated to divide by “self” antigen, as well as foreign cells: incorporation of ³H-thymidine above background levels has been found in cultures with syngeneic spleen and thymus cells of adult rats⁵, although the experiments do not determine whether thymus or spleen cells have been stimulated. In contrast to these experiments, Howe et al. reported that only thymus cells of neonatal CBA mice reacted to allogeneic and syngeneic spleen cells of adult animals in “one way” MLR cultures^6,7. Whether the reaction of neonatal thymus cells to syngeneic adult spleen cells is recognition of “self” antigens is uncertain, since spleens of adult mice could carry antigens which do not occur in neonatal animals and are therefore “unknown” for neonatal thymus cells. We demonstrate here that neonatal thymus cells do not react to 4-day-old CBA spleen cells, but adult thymus cells do react against both allogeneic and syngeneic adult spleen cells.     

CD117-positive Cells of the Heart: Progenitor Cells or Mast Cells?

Human cardiac stem/progenitor cells and their potential for repair of heart injury are a current hot topic of research. CD117 has been used frequently as a marker for identification of stem/progenitor cells in the heart. However, cardiac mast cells, which are also CD117⁺, have not been excluded by credible means when selecting putative cardiac progenitors by using CD117 as a marker. We evaluated the relationship between CD117⁺ cells and mast cells in the left ventricle of human hearts (n=5 patients, ages 1 week–75 years) with the well-established mast cell markers tryptase, toluidine blue, and thionine. A large number (85–100%) of CD117⁺ cells in the human heart were specifically identified as mast cells. In addition, mast cells showed weak or moderate CD45 immunostaining signals. These results indicate that the majority of CD117⁺ cells in the heart are mast cells and that these cells are distinctly positive for CD45, although staining was weak or moderate. These results strongly suggest that the newly reported CD117⁺/CD45^dim/moderate putative cardiac progenitor cells are mast cells. The significance of this observation in stem cell research of the heart is discussed. (J Histochem Cytochem 58:309–316, 2010)     

Targeting Aberrant Glutathione Metabolism to Eradicate Human Acute Myelogenous Leukemia Cells

The development of strategies to eradicate primary human acute myelogenous leukemia (AML) cells is a major challenge to the leukemia research field. In particular, primitive leukemia cells, often termed leukemia stem cells, are typically refractory to many forms of therapy. To investigate improved strategies for targeting of human AML cells we compared the molecular mechanisms regulating oxidative state in primitive (CD34⁺) leukemic versus normal specimens. Our data indicate that CD34⁺ AML cells have elevated expression of multiple glutathione pathway regulatory proteins, presumably as a mechanism to compensate for increased oxidative stress in leukemic cells. Consistent with this observation, CD34⁺ AML cells have lower levels of reduced glutathione and increased levels of oxidized glutathione compared with normal CD34⁺ cells. These findings led us to hypothesize that AML cells will be hypersensitive to inhibition of glutathione metabolism. To test this premise, we identified compounds such as parthenolide (PTL) or piperlongumine that induce almost complete glutathione depletion and severe cell death in CD34⁺ AML cells. Importantly, these compounds only induce limited and transient glutathione depletion as well as significantly less toxicity in normal CD34⁺ cells. We further determined that PTL perturbs glutathione homeostasis by a multifactorial mechanism, which includes inhibiting key glutathione metabolic enzymes (GCLC and GPX1), as well as direct depletion of glutathione. These findings demonstrate that primitive leukemia cells are uniquely sensitive to agents that target aberrant glutathione metabolism, an intrinsic property of primary human AML cells.     

Active potassium transport in reticulocytes of high-K and low-K sheep

The kinetics of active K⁺ transport were studied in immature red blood cells cells from high-K⁺ and low-K⁺ sheep, particularly with respect to the effects of varying intracellular K⁺ concentration, [K]_i. Comparison was made with active transport, or pump, activity in mature high-K⁺ and low-K⁺ red cells. Reticulocytes from both types of sheep had much higher maximal active K⁺ influxes than did mature cells. In both types of reticulocytes, and in mature high-K⁺ cells as well, the pump was relatively insensitive to increasing [K]_i. In contrast, intracellular K⁺ markedly inhibited the pump in mature low-K⁺ cells. Active K⁺ transport in low-K⁺ reticulocytes, however, as in mature low-K⁺ cells, is stimulated by specific isoimmune anti-L serum. Therefore the K⁺ pumps of high-K⁺ and low-K⁺ reticulocytes have similar kinetic properties. Maturation of the red cells, involving inactivation of most of the pump activity in both cell types, results in mature high-K⁺ and low-K⁺ cells with K⁺ pumps of very different kinetic characteristics.     

Human Natural Killer Cell Maturation Defect Supports In Vivo CD56bright to CD56dim Lineage Development

Two populations of human natural killer (NK) cells can be identified in peripheral blood. The majority are CD3⁻CD56^dim cells while the minority exhibits a CD3⁻CD56^bright phenotype. In vitro evidence indicates that CD56^bright cells are precursors of CD56^dim cells, but in vivo evidence is lacking. Here, we studied NK cells from a patient that suffered from a melanoma and opportunistic fungal infection during childhood. The patient exhibited a stable phenotype characterized by a reduction in the frequency of peripheral blood CD3⁻CD56^dim NK cells, accompanied by an overt increase in the frequency and absolute number of CD3⁻CD56^bright cells. These NK cells exhibited similar expression of perforin, CD57 and CD158, the major activating receptors CD16, NKp46, NKG2D, DNAM-1, and 2B4, as well as the inhibitory receptor CD94/NKG2A, on both CD56^bright and CD56^dim NK cells as healthy controls. Also, both NK cell subpopulations produced IFN-γ upon stimulation with cytokines, and CD3⁻CD56^dim NK cells degranulated in response to cytokines or K562 cells. However, upon stimulation with cytokines, a substantial fraction of CD56^dim cells failed to up-regulate CD57 and CD158, showed a reduction in the percentage of CD16⁺ cells, and CD56^bright cells did not down-regulate CD62L, suggesting that CD56^dim cells could not acquire a terminally differentiated phenotype and that CD56^bright cells exhibit a maturation defect that might result in a potential altered migration pattern. These observations, support the notion that NK cells of this patient display a maturation/activation defect that precludes the generation of mature NK cells at a normal rate accompanied by CD56^dim NK cells that cannot completely acquire a terminally differentiated phenotype. Thus, our results provide evidence that support the concept that in vivo CD56^bright NK cells differentiate into CD56^dim NK cells, and contribute to further understand human NK cell ontogeny.     

Ovarian Cancer Stem Cells Are Enriched in Side Population and Aldehyde Dehydrogenase Bright Overlapping Population

Cancer stem-like cells (CSCs)/cancer-initiaiting cells (CICs) are defined as a small population of cancer cells that have self-renewal capacity, differentiation potential and high tumor-initiating ability. CSCs/CICs of ovarian cancer have been isolated by side population (SP) analysis, ALDEFLUOR assay and using cell surface markers. However, these approaches are not definitive markers for CSCs/CICs, and it is necessary to refine recent methods for identifying more highly purified CSCs/CICs. In this study, we analyzed SP cells and aldehyde dehydrogenese bright (ALDH^Br) cells from ovarian cancer cells. Both SP cells and ALDH^Br cells exhibited higher tumor-initiating ability and higher expression level of a stem cell marker, sex determining region Y-box 2 (SOX2), than those of main population (MP) cells and ALDH^Low cells, respectively. We analyzed an SP and ALDH^Br overlapping population (SP/ALDH^Br), and the SP/ALDH^Br population exhibited higher tumor-initiating ability than that of SP cells or ALDH^Br cells, enabling initiation of tumor with as few as 10² cells. Furthermore, SP/ADLH^Br population showed higher sphere-forming ability, cisplatin resistance, adipocyte differentiation ability and expression of SOX2 than those of SP/ALDH^Low, MP/ALDH^Br and MP/ALDH^Low cells. Gene knockdown of SOX2 suppressed the tumor-initiation of ovarian cancer cells. An SP/ALDH^Br population was detected in several gynecological cancer cells with ratios of 0.1% for HEC—1 endometrioid adenocarcinoma cells to 1% for MCAS ovary mucinous adenocarcinoma cells. Taken together, use of the SP and ALDH^Br overlapping population is a promising approach to isolate highly purified CSCs/CICs and SOX2 might be a novel functional marker for ovarian CSCs/CICs.     

Immunohistochemical characterization of cell types expressing the cellular prion protein in the small intestine of cattle and mice

The gastrointestinal tract is thought to be the main site of entry for the pathological isoform of the prion protein (PrP^Sc). Prion diseases are believed to result from a conformational change of the cellular prion protein (PrP^c) to PrP^Sc. Therefore, PrP^c expression is a prerequisite for the infection and spread of the disease to the central nervous system. However, the distribution of PrP^c in the gut is still a matter of controversy. We therefore investigated the localization of PrP^c in the bovine and murine small intestine. In cattle, most PrP^c positive epithelial cells were detected in the duodenum, while a few positive cells were found in the jejunum. PrP^c was expressed in serotonin producing cells. In bovine Peyer’s patches, PrP^c was distributed in extrafollicular areas, but not in the germinal centre of the jejunum and ileum. PrP^c was expressed in myeloid lineage cells such as myeloid dendritic cells and macrophages. In mice, PrP^c was expressed in some epithelial cells throughout the small intestine as well as in cells such as follicular dendritic cell in the germinal centre of Peyer’s patches. In this study, we demonstrate that there are a number of differences in the localization of PrP^c between the murine and bovine small intestines.     

The macrophage system in the intestinal muscularis externa during inflammation: an immunohistochemical and quantitative study of osteopetrotic mice

Intestinal inflammation results in disturbed intestinal motility in humans as well as in animal models. This altered function of smooth muscle cells and/or the enteric nervous system may be caused by activation of macrophages in muscularis externa and a thereby following release of cytokines and chemokines that causes influx of mononuclear cells and neutrophilic granulocytes. We subjected osteopetrotic (op/op) mice that lack certain macrophage subtypes, e.g. macrophages in the muscularis externa and +/+ mice to LPS to induce inflammatory cell influx. The densities of F4/80⁺, MHCII⁺, and myeloperoxidase⁺ cells were quantified using stereological sampling. In +/+ mice we found that MHCII⁺ cells outnumber F4/80⁺ cells and that LPS injection increased the density of MHCII⁺ cells temporarily but not that of F4/80⁺ cells. This indicates that an upregulation of MHCII antigen takes place and that two or more macrophage subtypes with comparable morphologies exist. Osteopetrotic mice lacked MHCII⁺, CD169⁺, and F4/80⁺ cells after either treatment, which indicate that these cells are CSF-1-dependent. LPS induced VCAM-1 activation of the vessels, modest influx of granulocytes, as well as an iNOS-activation in a cell type different from macrophages in both +/+ and op/op mice.