Podoplanin is known as a lymphatic marker because its expression is detected in lymphatic but not vascular endothelium. Podoplanin is also expressed in several normal tissues including osteocytes or osteoblasts. A systematic examination of the podoplanin expression was conducted in normal skeletal tissues and some bone tumor cell lines, and the diagnostic value determined in primary bone tumors. Podoplanin mRNA was expressed at a high level in bone marrow tissue and cartilage, and was upregulated with differentiation to osteoblasts in bone marrow cells. Strong podoplanin expression was seen in osteocytes, chondrocytes, and osteoblasts on immunohistochemistry. Podoplanin mRNA was expressed at a high level in several osteosarcoma and chondrosarcoma cell lines, whereas podoplanin was expressed at a low level in a Ewing's/primitive neuroectodermal tumor cell line. In the clinical samples, osteosarcomas (22/26) expressed podoplanin at various levels. In small cell osteosarcomas (2/2), podoplanin was expressed strongly, although the tissue samples included few diagnostic osteoids. Chondrosarcomas (10/10) expressed podoplanin strongly, and chondroblastomas (5/5) expressed podoplanin moderately, while podoplanin was absent or expressed at low levels in Ewing's sarcomas (0/5), chordomas (0/6) and giant cell tumors of bone (1/7). Therefore, podoplanin may be a sensitive immunohistochemical marker of osteogenic and chondrogenic bone tumors.
The association between the immune status within the tumor microenvironment and prognosis in synovial sarcoma is not well understood. We aimed to investigate the tumor immune microenvironment and analyze its prognostic impact for patients with synovial sarcoma. A total of 36 primary patients who were treated in our institution were retrospectively evaluated. Infiltration of lymphocytes (CD4+, CD8+, and FOXP3+), CD163+ macrophages, and expression of human leukocyte antigen (HLA) class I and programmed death ligand 1 (PD‐L1) were evaluated by immunohistochemistry. Moreover, we investigated PD‐L1 and programmed death ligand 2 (PD‐L2) mRNA expression in 19 of the 36 cases, using real‐time PCR. The Kaplan‐Meier method was used to estimate overall survival and progression‐free survival. Infiltration of lymphocytes and macrophages varied among the patients. Furthermore, the expression of HLA class I was negative or downregulated in 11 specimens. No PD‐L1 expression was observed using immunohistochemistry. Moreover, although PD‐L1 mRNA expression was observed in 18 of 19 specimens, the expression level was low. A higher infiltration of CD8+ or FOXP3+ lymphocytes in patients was associated with a favorable overall survival. In addition, a higher infiltration of CD163+ macrophages indicated a significantly worse overall and progression‐free survival. Infiltration of CD4+ lymphocytes, HLA class I, PD‐L1, and PD‐L2 expression were not associated with patient prognosis. This represents the first report investigating the tumor immune microenvironment as a prognostic factor in synovial sarcoma, indicating that CD163+ macrophages are associated with tumor progression. Our results underscore the clinical significance of the tumor immune microenvironment in synovial sarcoma.
The newt, a group of urodele amphibians, has outstanding ability to repeatedly regenerate various body parts, even in the terrestrial life-stage. In this animal, when the limb is amputated, a cell mass named the blastema appears on the stump and eventually gives rise to a new functional limb. Erythrocytes (red blood cells) in most non-mammalian vertebrates, including the newt, preserve their nucleus throughout their life-span, although physiological roles of such nucleated erythrocytes, other than oxygen delivery, are not known. Here we report novel behavior of erythrocytes in the newt. We identified an orphan gene Newtic1, whose transcripts significantly increased in the blastema. Newtic1 was expressed in a subset of erythrocytes that formed a novel clump (EryC). EryC formed a complex with monocytes and was circulating throughout the body. When the limb was amputated, EryCs were newly generated in the stump and accumulated into a distal portion of the growing blastema. Our data suggested that the newt erythrocytes carried multiple secretory molecules including growth factors and matrix metalloproteases, and were capable of delivering these molecules into the blastema as a form of EryCs. This study provides insight into regulations and roles of nucleated erythrocytes, that are independent of oxygen delivery.
BackgroundThe successful establishment of human induced pluripotent stem cells (hiPSCs) has increased the possible applications of stem cell research in biology and medicine. In particular, hiPSCs are a promising source of cells for regenerative medicine and pharmacology. However, one of the major obstacles to such uses for hiPSCs is the risk of contamination from undefined pathogens in conventional culture conditions that use serum replacement and mouse embryonic fibroblasts as feeder cells.Methodology/Principal FindingsHere we report a simple method for generating or culturing hiPSCs under feeder- and serum-free defined culture conditions that we developed previously for human embryonic stem cells. The defined culture condition comprises a basal medium with a minimal number of defined components including five highly purified proteins and fibronectin as a substrate. First, hiPSCs, which were generated using Yamanaka's four factors and conventional undefined culture conditions, adapted to the defined culture conditions. These adapted cells retained the property of self renewal as evaluated morphologically, the expression of self-renewal marker proteins, standard growth rates, and pluripotency as evaluated by differentiation into derivatives of all three primary germ layers in vitro and in vivo (teratoma formation in immunodeficient mice). Moreover, levels of nonhuman N-glycolylneuraminic acid (Neu5Gc), which is a xenoantigenic indicator of pathogen contamination in human iPS cell cultures, were markedly decreased in hiPSCs cultured under the defined conditions. Second, we successfully generated hiPSCs using adult dermal fibroblast under the defined culture conditions from the reprogramming step. For a long therm culture, the generated cells also had the property of self renewal and pluripotency, they carried a normal karyotype, and they were Neu5Gc negative.Conclusion/SignificanceThis study suggested that generation or adaption culturing under defined culture conditions can eliminate the risk posed by undefined pathogens. This success in generating hiPSCs using adult fibroblast would be beneficial for clinical application.
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