Autoantibodies against tumor antigens are promising means for cancer diagnosis and prognosis. In this study, we applied a proteomic approach to identify proteins that commonly elicit humoral response in lung squamous carcinoma (LSC). Sera from 20 newly diagnosed patients with LSC and 20 matched healthy individuals were analyzed for antibody-based reactivity against LSC proteins separated by two-dimensional electrophoresis. Autoantibodies against triosephosphate isomerase (Tim) and superoxide dismutase [Mn] (MnSOD) were detected in sera from over 20% patients with LSC but none from the normal controls. Furthermore, the occurrence of autoantibodies against Tim and MnSOD was evaluated by ELISA in an additional 40 LSC patients, 30 other types of cancer (OTC) patients, and 50 noncancer controls (NC). Results showed that frequency of autoantibody against Tim (27.5%) in LSC patients was significantly higher than that in OTC patients (6.7%, p = 0.027) and in NC (6%, p = 0.005). Likewise, frequency of autoantibody against MnSOD in LSC (20%) patients was significantly higher than that in NC (4%, p = 0.016), however, there was no significant difference when comparing to that in OTC patients (6.7%, p = 0.115). We also observed significantly increased expression and secretion of Tim and MnSOD in LSC, which possibly account for their autoantibody development. Our results indicate that autoantibody and antigen of Tim and MnSOD may be useful for screening and diagnosis of the lung squamous carcinoma.
Mitochondria play a pivotal role in energy generation and cellular physiological processes. These organelles are highly dynamic, constantly changing their morphology, cellular location, and distribution in response to cellular stress. In recent years, the phenomenon of mitochondrial transfer has attracted significant attention and interest from biologists and medical investigators. Intercellular mitochondrial transfer occurs in different ways, including tunnelling nanotubes (TNTs), extracellular vesicles (EVs), and gap junction channels (GJCs). According to research on intercellular mitochondrial transfer in physiological and pathological environments, mitochondrial transfer hold great potential for maintaining body homeostasis and regulating pathological processes. Multiple research groups have developed artificial mitochondrial transfer/transplantation (AMT/T) methods that transfer healthy mitochondria into damaged cells and recover cellular function. This paper reviews intercellular spontaneous mitochondrial transfer modes, mechanisms, and the latest methods of AMT/T. Furthermore, potential application value and mechanism of AMT/T in disease treatment are also discussed.
Although the study of imprinted genes in human development is very important, little is known about their expression and regulation in the early differentiation of human tissues due to lack of an appropriate model. In this study, a Chinese human embryonic stem (hES) cell line, SHhES1, was derived and fully characterized. Expression profiles of human imprinted genes were determined by Affymetrix Oligo micro-array in undifferentiated SHhES1 cells and SHhES1-derived embryoid bodies (EBs) at day 3, 8, 13 and 18. Thirty-two known human imprinted genes were detected in undifferentiated ES cells. Significantly, differential expression was found in nine genes at different stages of EB formation. Expression profile changes were confirmed by quantitative real-time reverse transcriptase-polymerase chain reaction in SHhES1 cells as well as in another independently derived hES cell line, HUES-7. In addition, the monoallelic expressions of four imprinted genes were examined in three different passages of undifferentiated ES cells and EBs of both hES cell lines. The monoallelic expressions of imprinted genes, H19, PEG10, NDNL1 and KCNQ1 were maintained in both undifferentiated hES cells and derived EBs. More importantly, with the availability of maternal peripheral blood lymphocyte sample, we demonstrated that the maternal expression of KCNQ1 and the paternal expression of NDNL1 and PEG10 were maintained in SHhES1 cells. These data provide the first demonstration that the parental-specific expression of imprinted genes is stable in EBs after extensive differentiation, also indicating that in vitro fertilization protocol does not disrupt the parental monoallelic expression of the imprinted genes examined.
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