Disclosure of potential conflicts of interest is found at the end of this article.
Emerging evidence suggests human amnion tissue as a valuable source of two distinct types of pluripotent cells, amnion epithelial cells (hAECs) and mesenchymal stromal cells (hAMSCs), for applications in cell replacement therapy. For some approaches, it may be necessary to culture and differentiate these cells before they can be transplanted. No systematic attempt has been yet made to determine the quantity and quality of amnion cells after isolation and culture. We looked at amnion cell isolates from 27 term placentas. Following our optimized protocol, primary yields were 6.3 x 10(6) hAECs and 1.7 x 10(6) hAMSCs per gram amnion. All 27 cases gave vital cultures of hAMSCs, while one third of cases (9 of 27) failed to give adherent cultures of hAECs. Primary cultures contained significantly more proliferating than apoptotic cells (hAECs: 16.4% vs. 4.0%; hAMSCs: 9.5% vs. 2.4%). Neither hAECs nor hAMSCs were clonogenic. They showed slow proliferation that almost stopped beyond passage 5. Microscopic follow-up revealed that hAEC morphology gradually changed towards mesenchymal phenotype over several passages. Flow cytometric characterization of primary cultures showed expression of mesenchymal progenitor markers CD73, CD90, CD105, and CD166, as well as the embryonic stem cell markers SSEA-3 and -4 on both amnion cell types. These profiles were grossly maintained in secondary cultures. Reverse transcriptase-PCR analysis exhibited transcripts of Oct-3/4 and stem cell factor in primary and secondary cultures of all cases, but no telomerase reverse transcriptase. Immunocytochemistry confirmed translation into Oct-3/4 protein in part of hAEC cultures, but not in hAMSCs. Further, both amnion cell types stained for CD90 and SSEA-4. Osteogenic induction studies with amnion cells from four cases showed significantly stronger differentiation of hAECs than hAMSCs; this capacity to differentiate greatly varied between cases. In conclusion, hAECs and hAMSCs in culture exhibit and maintain a similar marker profile of mesenchymal progenitors. hAECs were found as a less reliable source than hAMSCs and altered morphology during subculture.
Objective-This study was undertaken to test injectible surgical sealants that are biocompatible with fetal membranes, eventually for closure of iatrogenic membrane defects.Study Design-Dermabond, Histoacryl, Tissucol fibrin glue, and three types of in situ forming poly(ethylene glycol)-based polymer hydrogels were tested for acute toxicity upon direct contact with fetal membranes for 24h. For determination of elution toxicity, extracts of sealants were incubated on amnion cell cultures for 72h. Bonding and toxicity was assessed through morphological and/or biochemical analysis.Results-Extracts of all adhesives were non-toxic for cultured cells. However, only Tissucol and one type of poly(ethylene glycol)-based hydrogel, mussel-mimetic tissue adhesive, showed efficient, non-disruptive, non-toxic bonding to fetal membranes. Mussel-mimetic tissue adhesive applied over membrane defects created with a 3.5 mm trocar accomplished leak-proof closure that withstood membrane stretch in an in vitro model. Conclusion-A synthetic hydrogel-type tissue adhesive emerged as potential sealing modality for iatrogenic membrane defects that merits further evaluation in vivo.
Abstract. MHC class II-expressing renal tubular epithelial cells (TEC) are able to present foreign peptide antigens to T cells. The costimulatory signals that are required for effective T cell activation upon antigen presentation by TEC have not been characterized. Various cultured TEC lines were examined for expression of the recently described costimulatory molecule B7RP-1 (B7h), a ligand of the T cell molecule inducible costimulator (ICOS), and expression was compared with that of B7.1, B7.2, and CD40. B7RP-1 and CD40 were abundantly expressed by cultured murine and human TEC, whereas B7.1 and B7.2 could not be detected. Stimulation with lipopolysaccharide or tumor necrosis factor-␣ did not induce B7.1 or B7.2 expression and did not alter B7RP-1 expression. Interestingly, interleukin-2 production by T cell hybridomas after antigen presentation by TEC was enhanced by blocking antibodies to B7RP-1 and ICOS. In contrast, blocking antibodies to B7RP-1 or ICOS exerted inhibitory effects on anti-CD3-activated murine splenocyte proliferation. Immunohistochemical staining of normal human kidneys demonstrated strong constitutive B7RP-1 expression in distal tubules, collecting ducts, and urothelium. In human kidneys with allograft rejection or interstitial nephritis, distinct B7RP-1 staining was also detected in proximal tubules, in areas of mononuclear infiltration. In conclusion, the B7RP-1/ICOS pathway negatively regulates T cell activation upon MHC class II-restricted antigen presentation by TEC. Because B7RP-1 is also expressed by tubules in vivo, it can be speculated that the B7RP-1/ICOS pathway could play an inhibitory role in TEC-mediated immune activation in the kidney.Renal proximal tubular epithelial cells (TEC) play an important role in the pathogenesis of immune renal injury, both as initiators of T cell responses and as targets of T cells. Various studies, including our own, have demonstrated that TEC express MHC class II antigens, particularly in response to interferon-␥ (IFN-␥) (1-3). TEC also have the ability to ingest and process antigen in the lysosomal compartment, then presenting it in the form of small antigenic peptides, in the context of MHC class II molecules, to CD4 ϩ T cells (3-5). Specific CD4 ϩ T cells may recognize antigen via T cell receptors. Various signaling pathways are then activated, transmitting the so-called signal 1 to the interior of the T cells (6).Typical antigen-presenting cells initiate a second signal (signal 2), which is needed to fully activate the T cells. This second signal is usually received by T cells through the interaction of CD28 with B7 (7). Several studies have demonstrated, however, that cultured TEC lack the classic B7 molecules, including B7.1 and B7.2. Furthermore, B7.1 and B7.2 are not observed on tubules in vivo, in animal models of renal injury (8 -10). This has raised many questions regarding the nature and importance of signal 2 in the interaction of T cells with TEC.Ligation of T cell receptors in the absence of signal 2 may result in clonal anergy (11...
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