Mesenchymal stem cells (MSCs) have generated a great deal of interest in clinical situations, due principally to their potential use in regenerative medicine and tissue engineering applications. However, the therapeutic application of MSCs remains limited, unless the favorable effects of MSCs for tumor growth in vivo and the long-term safety of the clinical applications of MSCs can be understood more thoroughly. In this study, MSCs derived from human adipose tissues (hASCs) together with tumor cells were transplanted subcutaneously or intracranially into BALB/c nude mice to observe tumor outgrowth. The results indicated that hASCs with H460 or U87MG cells promoted tumor growth in nude mice. Our histopathological analyses indicated that the co-injection of tumor cells with hASCs exerted no influence on the formation of intratumoral vessels. Co-culture of tumor cells with hASCs or the addition of conditioned medium (CM) from hASCs effected an increase in the proliferation of H460 or U87MG cells. Co-injection of hASCs with tumor cells effected an increase in tumor cell viability in vivo, and also induced a reduction in apoptotic cell death. CM from hASCs inhibited hydrogen peroxide-induced cell death in H460 or U87MG cells. These findings indicated that MSCs could favor tumor growth in vivo. Thus, it is necessary to conduct a study concerning the long-term safety of this technique before MSCs can be used as therapeutic tools in regenerative medicine and tissue engineering.
Increased incidences of Kaposi's sarcoma and lymphoid malignancies have been observed in patients with pemphigus, and the human herpesvirus 8 (HHV-8) is very strongly associated with these tumors. Because the virus may be one of the triggering factors of pemphigus, we undertook this study to screen for the presence of HHV-8 in chronic blistering skin diseases including pemphigus. A total of 45 paraffin-embedded specimens were studied using nested polymerase chain reaction (PCR) with primers to amplify a 160-base pair HHV-8 fragment. HHV-8 DNA could be detected in 7 of 9 patients with pemphigus vulagris, and 1 of 2 with pemphigus foliaceus. All specimens of other blistering skin diseases were negative for HHV-8. On sequencing PCR products, the sequences were almost identical with the prototypic sequence for HHV-8, and a few base- pair substitutions at 1086C-T and 1139A-C were detected. The results of our study suggests that HHV-8 might have trophism for pemphigus lesions. Further studies including comparison of HHV-8 DNA load in both lesional and normal skin in the same patient, serological and animal studies would be helpful to study the relationship between HHV-8 and pemphigus.
Human bone marrow stromal cells (hBMSCs) are defined as pluripotent progenitor cells with the ability to differentiate into osteoblasts, chondrochytes, adipocytes, muscle cells, and neural cells. Recently, it has been shown that telomerase expression not only extends the replicative life-span and maintains their bone-forming capability of hBMSCs. We previously reported that human adipose tissue stromal cells (hATSCs) have similar characteristics with hBMSCs. In this study, hATSCs were stably tranduced by a retrovirus containing the gene for the catalytic subunit of human telomerase (hTERT) and MSCV-neo retrovirus, and 12 clones for hTERT-hATSCs and 6 clones for MSCV-hATSCs were isolated. The tranduced clones (hATSC-TERTs) had high telomerase activity, which was maintained during subsequent subcultivation. The transduced cells of two representative clones have undergone more than 100 population doublings (PD) and continue to proliferate, whereas control cells underwent senescence-associated proliferation arrest after 36-40 PD. The cells had a normal karyotype, and increased differentiation potential, especially osteogenic lineage. Intraventricular injection of hATSC-TERTs in ischemic rat brain showed enhancement of functional recovery as like hATSC-MSCVs. The tissue engraftment of hATSCs and hTERT-hATSCs in NOD/SCID mice after intravenous administration was identical. These results further support a similarity between hBMSCs and hATSCs. hATSCs can be used as an alternative of pluripotent stromal cells for cell replacement therapy as like hBMSCs.
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