技术资料

Differentiation of embryonic and adult myogenic progenitors undergoes a complex series of cell rearrangements and specification events which are controlled by distinct gene regulatory networks. Delineation of the molecular mechanisms that regulate skeletal muscle specification and formation should be important for understanding congenital myopathies and muscular degenerative diseases. Retinoic acid (RA) signaling plays an important role in development. However,the role of RA signaling in adult myogenic progenitors is poorly understood. Here,we investigate the role of RA signaling in regulating myogenic differentiation of myoblastic progenitor cells. Using the mouse myoblast progenitor C2C12 line as a model,we have found that the endogenous expression of most RAR and RXR isotypes is readily detected. While the nuclear receptor co-repressors are highly expressed,two of the three nuclear receptor co-activators and the enzymes involved in RA synthesis are expressed at low level or undetectable,suggesting that the RA signaling pathway may be repressed in myogenic progenitors. Using the alpha-myosin heavy chain promoter-driven reporter (MyHC-GLuc),we have demonstrated that either ATRA or 9CRA is able to effectively induce myogenic differentiation,which can be synergistically enhanced when both ATRA and 9CRA are used. Upon ATRA and 9CRA treatment of C2C12 cells the expression of late myogenic markers significantly increases. We have further shown that adenovirus-mediated exogenous expression of RARalpha and/or RXRalpha is able to effectively induce myogenic differentiation in a ligand-independent fashion. Morphologically,ATRA- and 9CRA-treated C2C12 cells exhibit elongated cell body and become multi-nucleated myoblasts,and even form myoblast fusion. Ultrastructural analysis under transmission electron microscope reveals that RA-treated myogenic progenitor cells exhibit an abundant presence of muscle fibers. Therefore,our results strongly suggest that RA signaling may play an important role in regulating myogenic differentiation. View Publication

Here,we describe a procedure and first-in-man clinical effects of adoptive transfer of ex vivo expanded CD4+CD25+CD127- T regulatory cells (Tregs) in the treatment of graft versus host disease (GvHD). The cells were sorted from buffy coats taken from two family donors,expanded ex vivo and transferred to respective recipients who suffered from either acute or chronic GvHD. The therapy allowed for significant alleviation of the symptoms and reduction of pharmacologic immunosuppression in the case of chronic GvHD,while in the case of grade IV acute GvHD it only transiently improved the condition,for the longest time within all immunosuppressants used nonetheless. View Publication

The presence of interleukin-2 (IL-2)-producing human immunodeficiency virus type 1 (HIV-1)-specific CD4(+) T-cell responses has been associated with the immunological control of HIV-1 replication; however,the causal relationship between these factors remains unclear. Here we show that IL-2-producing HIV-1-specific CD4(+) T cells can be cloned from acutely HIV-1-infected individuals. Despite the early presence of these cells,each of the individuals in the present study exhibited progressive disease,with one individual showing rapid progression. In this rapid progressor,three IL-2-producing HIV-1 Gag-specific CD4(+) T-cell responses were identified and mapped to the following optimal epitopes: HIVWASRELER,REPRGSDIAGT,and FRDYVDRFYKT. Responses to these epitopes in peripheral blood mononuclear cells were monitored longitudinally to textgreater1 year postinfection,and contemporaneous circulating plasma viruses were sequenced. A variant of the FRDYVDRFYKT epitope sequence,FRDYVDQFYKT,was observed in 1/21 plasma viruses sequenced at 5 months postinfection and 1/10 viruses at 7 months postinfection. This variant failed to stimulate the corresponding CD4(+) T-cell clone and thus constitutes an escape mutant. Responses to each of the three Gag epitopes were rapidly lost,and this loss was accompanied by a loss of antigen-specific cells in the periphery as measured by using an FRDYVDRFYKT-presenting major histocompatibility complex class II tetramer. Highly active antiretroviral therapy was associated with the reemergence of FRDYVDRFYKT-specific cells by tetramer. Thus,our data support that IL-2-producing HIV-1-specific CD4(+) T-cell responses can exert immune pressure during early HIV-1 infection but that the inability of these responses to enforce enduring control of viral replication is related to the deletion and/or dysfunction of HIV-1-specific CD4(+) T cells rather than to the fixation of escape mutations at high frequencies. View Publication

In recent years,the differentiation of bone marrow cells (BMCs) into myocytes has been extensively investigated,but the findings remain inconclusive. The purpose of this study was to determine the conditions necessary to induce myogenic differentiation in short-term cultures of adult BMCs,and to identify the BMC subpopulation responsible for this phenomenon. We report that high-density cultures of murine hematopoietic BMCs gave rise to spontaneous beating cell clusters in the presence of vascular endothelial and fibroblast growth factors. These clusters originated from c-kit(pos) cells. The formation of the clusters could be completely blocked by adding a c-kit/tyrosine kinase inhibitor,Gleevec (imatinib mesylate; Novartis International,Basel,Switzerland,http://www.novartis.com),to the culture. Cluster formation was also blunted in BMCs from c-kit-deficient (Kit(W)/Kit(W-v)) mice. Clustered cells expressed cardiomyocyte-specific transcription factor genes Gata-4 and Nkx2.5,sarcomeric proteins beta-MHC and MLC-2v,and ANF and connexin-43. Immunostaining revealed alpha-sarcomeric actinin expression in more than 90% of clustered cells. Under electron microscopy,the clustered cells exhibited a sarcomeric myofiber arrangement and z-bands. This study defines the microenvironment required to achieve a reproducible in vitro model of beating,myogenic cell clusters. This model could be used to examine the mechanisms responsible for the postnatal myogenic differentiation of BMCs. Our results identify c-kit(pos) bone marrow hematopoietic cells as the source of the myogenic clusters. View Publication

RNA-binding motif protein 15 (RBM15) is involved in the RBM15-megakaryoblastic leukemia 1 fusion in acute megakaryoblastic leukemia. Although Rbm15 has been reported to be required for B-cell differentiation and to inhibit myeloid and megakaryocytic expansion,it is not clear what the normal functions of Rbm15 are in the regulation of hematopoietic stem cell (HSC) and megakaryocyte development. In this study,we report that Rbm15 may function in part through regulation of expression of the proto-oncogene c-Myc. Similar to c-Myc knockout (c-Myc-KO) mice,long-term (LT) HSCs are significantly increased in Rbm15-KO mice due to an apparent LT-HSC to short-term HSC differentiation defect associated with abnormal HSC-niche interactions caused by increased N-cadherin and beta(1) integrin expression on mutant HSCs. Both serial transplantation and competitive reconstitution capabilities of Rbm15-KO LT-HSCs are greatly compromised. Rbm15-KO and c-Myc-KO mice also share related abnormalities in megakaryocyte development,with mutant progenitors producing increased,abnormally small low-ploidy megakaryocytes. Consistent with a possible functional interplay between Rbm15 and c-Myc,the megakaryocyte increase in Rbm15-KO mice could be partially reversed by ectopic c-Myc. Thus,Rbm15 appears to be required for normal HSC-niche interactions,for the ability of HSCs to contribute normally to adult hematopoiesis,and for normal megakaryocyte development; these effects of Rbm15 on hematopoiesis may be mediated at least in part by c-Myc. View Publication

The amyloid-beta precursor protein (AbetaPP) is a ubiquitously expressed transmembrane protein whose cleavage product,the amyloid-beta (Abeta) protein,is deposited in amyloid plaques in neurodegenerative conditions such as Alzheimer disease,Down syndrome,and head injury. We recently reported that this protein,normally associated with neurodegenerative conditions,is expressed by human embryonic stem cells (hESCs). We now report that the differential processing of AbetaPP via secretase enzymes regulates the proliferation and differentiation of hESCs. hESCs endogenously produce amyloid-beta,which when added exogenously in soluble and fibrillar forms but not oligomeric forms markedly increased hESC proliferation. The inhibition of AbetaPP cleavage by beta-secretase inhibitors significantly suppressed hESC proliferation and promoted nestin expression,an early marker of neural precursor cell (NPC) formation. The induction of NPC differentiation via the non-amyloidogenic pathway was confirmed by the addition of secreted AbetaPPalpha,which suppressed hESC proliferation and promoted the formation of NPCs. Together these data suggest that differential processing of AbetaPP is normally required for embryonic neurogenesis. View Publication

Dental pulp is a promising source of mesenchymal stem cells with the potential for cell-mediated therapies and tissue engineering applications. We recently reported that isolation of dental pulp-derived stem cells (DPSC) is feasible for at least 120h after tooth extraction,and that cryopreservation of early passage cultured DPSC leads to high-efficiency recovery post-thaw. This study investigated additional processing and cryobiological characteristics of DPSC,ending with development of procedures for banking. First,we aimed to optimize cryopreservation of established DPSC cultures,with regards to optimizing the cryoprotective agent (CPA),the CPA concentration,the concentration of cells frozen,and storage temperatures. Secondly,we focused on determining cryopreservation characteristics of enzymatically digested tissue as a cell suspension. Lastly,we evaluated the growth,surface markers and differentiation properties of DPSC obtained from intact teeth and undigested,whole dental tissue frozen and thawed using the optimized procedures. In these experiments it was determined that Me(2)SO at a concentration between 1 and 1.5M was the ideal cryopreservative of the three studied. It was also determined that DPSC viability after cryopreservation is not limited by the concentration of cells frozen,at least up to 2x10(6) cells/mL. It was further established that DPSC can be stored at -85 degrees C or -196 degrees C for at least six months without loss of functionality. The optimal results with the least manipulation were achieved by isolating and cryopreserving the tooth pulp tissues,with digestion and culture performed post-thaw. A recovery of cells from textgreater85% of the tissues frozen was achieved and cells isolated post-thaw from tissue processed and frozen with a serum free,defined cryopreservation medium maintained morphological and developmental competence and demonstrated MSC-hallmark trilineage differentiation under the appropriate culture conditions. View Publication

The transcription factor T-bet (Tbx21) is critical for Th1 polarization of CD4(+) T cells. Genetic deletion of Tbx21 can cause either exacerbation or attenuation of different autoimmune diseases in animal models. In the nonobese diabetic (NOD) mouse,genetic deletion of the Ifng or the Il12b (IL-12p40) genes,which are both critical Th1 cytokines,does not reduce the incidence of autoimmune diabetes. These results suggest that autoimmune diabetes in the NOD may not be a Th1-driven disease. However,we report that Tbx21 deficiency in the NOD mouse completely blocks insulitis and diabetes due to defects both in the initiation of the anti-islet immune response and in the function of CD4(+) effector T cells. We find defective priming of naive islet-reactive T cells by the innate immune system in Tbx21(-/-) animals. By contrast to naive cells,activated islet-reactive BDC2.5 TCR-transgenic T cells do not require Tbx21 in recipient animals for efficient adoptive transfer of diabetes. However,when these BDC2.5 TCR-transgenic effector cells lack Tbx21,they are less effective at entering the pancreas and promoting diabetes than Tbx21(+/+) cells. Tbx21(-/-) regulatory T cells function normally in vitro and diabetes can be restored in Tbx21(-/-) mice by reducing regulatory T cell numbers. Thus,the absence of diabetes in the NOD.Tbx21(-/-) is due to intrinsic defects in both T cells and cells of the innate immune system paired with the relative preservation of regulatory T cell function. View Publication

Cytoplasmic APOBEC3G has been reported to block wild-type human immunodeficiency virus type 1 (HIV-1) infection in some primary cells. It is not known whether cytoplasmic APOBEC3G has residual activity in activated T cells,even though virion-packaged APOBEC3G does restrict HIV-1 in activated T cells. Because we found that APOBEC3G expression is greater in activated CD4(+) T-helper type 1 (Th1) lymphocytes than in T-helper type 2 (Th2) lymphocytes,we hypothesized that residual target cell restriction of incoming Vif-positive virions that lack APOBEC3G,if present,would be greater in Th1 than Th2 lymphocytes. Infection of activated Th1 cells with APOBEC3-negative virions did result in decreased amounts of early and late reverse transcription products and integrated virus relative to infection of activated Th2 cells. Two-long terminal repeat (2-LTR) circles,which are formed in the nucleus when reverse transcripts do not integrate,were increased after APOBEC3-negative virus infection of activated Th1 cells relative to infection of activated Th2 cells. In contrast,2-LTR circle forms were decreased after infection of APOBEC3G-negative cells with APOBEC3G-containing virions relative to APOBEC3G-negative virions and with Th1 cell-produced virions relative to Th2 cell-produced virions. Increasing APOBEC3G in Th2 cells and decreasing APOBEC3G in Th1 cells modulated the target cell phenotypes,indicating causation by APOBEC3G. The comparison between activated Th1 and Th2 cells indicates that cytoplasmic APOBEC3G in activated Th1 cells partially restricts reverse transcription and integration of incoming Vif-positive,APOBEC3G-negative HIV-1. The differing effects of cytoplasmic and virion-packaged APOBEC3G on 2-LTR circle formation indicate a difference in their antiviral mechanisms. View Publication

Progenitor cells have been extensively studied and therapeutically applied in tissue reconstructive therapy. Stromal vascular fraction (SVF) cells,which are derived from adipose tissue,may represent a potential source of the cells which undergo phenotypical differentiation into many lineages both in vitro as well as in vivo. The goal of this study was to check whether human SVF cells may differentiate into cardiomyocyte-like entities. Human SVF cells were induced to differentiate by their incubation in Methocult medium in the presence of SCF,IL-3 and IL-6. Morphological transformation of the cells was monitored using optical light microscope,whereas changes in expression of the genes typical for cardiac phenotype were measured by qRT-PCR. Incubation of the human SVF cells in the medium that promotes cardiomyocyte differentiation in vitro resulted in formation of myotubule-like structures accompanied by up-regulation of the myocardium-characteristic genes,such as GATA,MEF2C,MYOD1,but not ANP. Human SVF cells differentiate into cardiomyocyte-like cells in the presence of the certain set of myogenesis promoting cytokines. View Publication

Self-renewing cell populations such as hematopoietic stem cells and memory B and T lymphocytes might be regulated by shared signaling pathways. The Wnt-beta-catenin pathway is an evolutionarily conserved pathway that promotes hematopoietic stem cell self-renewal and multipotency by limiting stem cell proliferation and differentiation,but its role in the generation and maintenance of memory T cells is unknown. We found that induction of Wnt-beta-catenin signaling by inhibitors of glycogen sythase kinase-3beta or the Wnt protein family member Wnt3a arrested CD8(+) T cell development into effector cells. By blocking T cell differentiation,Wnt signaling promoted the generation of CD44(low)CD62L(high)Sca-1(high)CD122(high)Bcl-2(high) self-renewing multipotent CD8(+) memory stem cells with proliferative and antitumor capacities exceeding those of central and effector memory T cell subsets. These findings reveal a key role for Wnt signaling in the maintenance of 'stemness' in mature memory CD8(+) T cells and have major implications for the design of new vaccination strategies and adoptive immunotherapies. View Publication

Dendritic cell (DC) differentiation is regulated by stroma via a network of soluble and cell-bound factors. Notch is one of the major elements of this network. Its role in DC differentiation,however,is controversial. Here,we demonstrate that activation of Notch signaling in hematopoietic progenitor cells (HPCs) promoted differentiation of conventional DCs via activation of the canonical Wingless (Wnt) pathway. Inhibition of the Wnt pathway abrogated the effect of Notch on DC differentiation. The fact that activation of the Wnt pathway in Notch-1-deficient embryonic stem cells restored DC differentiation indicates that Wnt signaling is downstream of the Notch pathway in regulating DC differentiation. Notch signaling activated the Wnt pathway in HPCs via expression of multiple members of the Frizzled family of Wnt receptors,which was directly regulated by the CSL (RPB-Jkappa) transcription factor. Thus,these data suggest a model of DC differentiation via cooperation between Wnt and Notch pathways. View Publication