Protein profile of basal prostate epithelial progenitor cells—stage‐specific embryonal antigen 4 expressing cells have enhanced regenerative potential in vivo

The long‐term propagation of basal prostate progenitor cells ex vivo has been very difficult in the past. The development of novel methods to expand prostate progenitor cells in vitro allows determining their cell surface phenotype in greater detail. Mouse (Lin^?Sca‐1⁺ CD49f⁺ Trop2^high‐phenotype) and human (Lin^? CD49f⁺ TROP2^high) basal prostate progenitor cells were expanded in vitro. Human and mouse cells were screened using 242 anti‐human or 176 antimouse monoclonal antibodies recognizing the cell surface protein profile. Quantitative expression was evaluated at the single‐cell level using flow cytometry. Differentially expressed cell surface proteins were evaluated in conjunction with the known CD49f⁺/TROP2^high phenotype of basal prostate progenitor cells and characterized by in vivo sandwich‐transplantation experiments using nude mice. The phenotype of basal prostate progenitor cells was determined as CD9⁺/CD24⁺/CD29⁺/CD44⁺/CD47⁺/CD49f⁺/CD104⁺/CD147⁺/CD326⁺/Trop2^high of mouse as well as human origin. Our analysis revealed several proteins, such as CD13, Syndecan‐1 and stage‐specific embryonal antigens (SSEAs), as being differentially expressed on murine and human CD49f⁺ TROP2⁺ basal prostate progenitor cells. Transplantation experiments suggest that CD49f⁺ TROP2^high SSEA‐4^high human prostate basal progenitor cells to be more potent to regenerate prostate tubules in vivo as compared with CD49f⁺ TROP2^high or CD49f⁺ TROP2^high SSEA‐4^low cells. Determination of the cell surface protein profile of functionally defined murine and human basal prostate progenitor cells reveals differentially expressed proteins that may change the potency and regenerative function of epithelial progenitor cells within the prostate. SSEA‐4 is a candidate cell surface marker that putatively enables a more accurate identification of the basal PESC lineage.     

A CD44high/EGFRlow Subpopulation within Head and Neck Cancer Cell Lines Shows an Epithelial-Mesenchymal Transition Phenotype and Resistance to Treatment

Mortality in head and neck squamous cell carcinoma (HNSCC) is high due to emergence of therapy resistance which results in local and regional recurrences that may have their origin in resistant cancer stem cells (CSCs) or cells with an epithelial-mesenchymal transition (EMT) phenotype. In the present study, we investigate the possibility of using the cell surface expression of CD44 and epidermal growth factor receptor (EGFR), both of which have been used as stem cell markers, to identify subpopulations within HNSCC cell lines that differ with respect to phenotype and treatment sensitivity. Three subpopulations, consisting of CD44^high/EGFR^low, CD44^high/EGFR^high and CD44^low cells, respectively, were collected by fluorescence-activated cell sorting. The CD44^high/EGFR^low population showed a spindle-shaped EMT-like morphology, while the CD44^low population was dominated by cobblestone-shaped cells. The CD44^high/EGFR^low population was enriched with cells in G0/G1 and showed a relatively low proliferation rate and a high plating efficiency. Using a real time PCR array, 27 genes, of which 14 were related to an EMT phenotype and two with stemness, were found to be differentially expressed in CD44^high/EGFR^low cells in comparison to CD44^low cells. Moreover, CD44^high/EGFR^low cells showed a low sensitivity to radiation, cisplatin, cetuximab and gefitinib, and a high sensitivity to dasatinib relative to its CD44^high/EGFR^high and CD44^low counterparts. In conclusion, our results show that the combination of CD44 (high) and EGFR (low) cell surface expression can be used to identify a treatment resistant subpopulation with an EMT phenotype in HNSCC cell lines.     

Androgen receptor expression reduces stemness characteristics of prostate cancer cells (PC3) by repression of CD44 and SOX2

Studies have shown that a subgroup of tumor cells possess stemness characteristics having self-renewal capacity and the ability to form new tumors. We sought to identify the plausible stemness factor that determines the “molecular signature” of prostate cancer (PCa) cells derived from different metastases (PC3, PCa2b, LNCaP, and DU145) and whether androgen receptor (AR) influences the maintenance of stemness features. Here we show sex-determining region Y (SRY)-box 2 (SOX2) as a putative stem cell marker in PC3 PCa cells and not in DU145, PCa2b, or LNCaP cells. PCa2b and PC3 cells were derived from bone metastases. PCa2b cells which are positive for the AR failed to demonstrate the expression of either cluster of differentiation 44 (CD44) or SOX2. Knockdown (KD) of AR in these cells did not affect the expression of either CD44 or SOX2. Conversely, PC3 cells, which are negative for AR, expressed both CD44 and SOX2. However, the expression of AR downregulated the expression of both CD44 and SOX2 in PC3 cells. CD44 regulates SOX2 expression as KD of CD44 and reduces SOX2 levels considerably. SOX2 KD attenuated not only the expression of SNAIL and SLUG but also the migration and tumorsphere formation in PC3 cells. Collectively, our findings underscore a novel role of CD44 signaling in the maintenance of stemness and progression of cancer through SOX2 in AR-independent PC3 cells. SOX2 has a role in the regulation of expression of SNAIL and SLUG. SOX2 could be a potential therapeutic target to thwart the progression of SOX2-positive cancer cells or recurrence of androgen-independent PCa.     

Modulation of tumorigenesis and oestrogen receptor‐α expression by cell culture conditions in a stem cell‐derived breast epithelial cell line

Background information. The common phenotypes of cancer and stem cells suggest that cancers arise from stem cells. Oestrogen is one of the few most important determinants of breast cancer, as shown by several lines of convincing evidence. We have previously reported a human breast epithelial cell type (Type 1 HBEC) with stem cell characteristics and ERα (oestrogen receptor α) expression. A tumorigenic cell line, M13SV1R2, was developed from this cell type after SV40 (simian virus 40) large T‐antigen transfection and X‐ray irradiation. The cell line, however, was not responsive to oestrogen for cell growth or tumour development. In the present study, we tested the hypothesis that deprivation of growth factors and hormones may change the tumorigenicity and oestrogen response of this cell line. Results. The M13SV1R2 cells lost their tumorigenicity after culturing in a growth factor/hormone‐deprived medium for >10 passages (referred to as R2d cells) concomitant with the expression of two tumour suppressor genes, namely those coding for maspin and α6 integrin. However, these cells acquired oestrogen responsiveness in cell growth and tumour development. By immunocytochemistry, Western blotting and flow cytometry analysis, oestrogen treatment of R2d cells was found to induce many important effects related to breast carcinogenesis, namely: (i) the emergence of a subpopulation of cells expressing CD44^+/high/CD24^?/low breast tumour stem cell markers; (ii) the induction of EMT (epithelial‐to‐mesenchymal transition); (iii) the acquisition of metastatic ability; and (iv) the expression of COX‐2 (cyclo‐oxygenase‐2) through a CD44‐mediated mechanism. Conclusion. An oestrogen‐responsive cell line with ERα and CD44⁺/CD24^?/low expression can be derived from breast epithelial stem cells. The tumorigenicity and oestrogen response of these cells could depend on the cell culture conditions. The findings of this study have implications in regard to the origins of (1) ERα‐positive breast cancers, (2) CD44⁺/CD24^?/low breast tumour stem cells and (3) the metastatic ability of breast cancer.     

Characterization of the immature dendritic cells and cytotoxic cells both expanded after activation of invariant NKT cells with alpha-galactosylceramide in vivo

Invariant natural killer T (iNKT) cells can perform multiple functions characteristic of both innate and acquired immunity. Activation of iNKT cells in vivo by repeated α-GalCer injections can induce immune tolerance, but the mechanisms responsible for such immunoregulation remain unclear. We prepared α-GalCer-liposomes, a single injection of which into mice resulted in the expansion of splenic CD11c^lowCD45RB^high cells, which consists of two populations, CD180⁺ and CD49b⁺. Expansion of these cells was not observed in α-GalCer-liposome-treated mice deficient in IL-10 or iNKT cells. MHC and co-stimulatory molecules were down-regulated in CD11c^lowCD180⁺ cells compared with conventional dendritic cells (cDCs), suggesting that the former possess characteristics of immature DCs. Meanwhile, the CD11c^lowCD49b⁺ cells expressed IL-10 and Ctla4, and possessed greater lytic activity than resting NK cells. These observations suggest that both immature DCs (CD11c^lowCD180⁺) and cytotoxic cells (CD11c^lowCD49b⁺) might be expanded by α-GalCer-activated iNKT cells and could therefore be involved in immune tolerance.     

Cross‐communication between histone H3 and H4 acetylation and Akt‐mTOR signalling in prostate cancer cells

Molecular tumour targeting has significantly improved anti‐cancer protocols. Still, the addition of molecular targeting to the treatment regime has not led to a curative breakthrough. Combined mammalian target of Rapamycin (mTOR) and histone deacetylase (HDAC) inhibition has been shown not only to enhance anti‐tumour potential, but also to prevent resistance development seen under mono‐drug therapy. This investigation was designed to evaluate whether cross‐communication exists between mTOR signalling and epigenetic events regulated by HDAC. DU‐145 prostate cancer cells were treated with insulin‐like growth factor (IGF) to activate the Akt‐mTOR cascade or with the HDAC‐inhibitor valproic acid (VPA) to induce histone H3 and H4 acetylation (aH3, aH4). Subsequently, mTOR, Rictor, Raptor, p70s6k, Akt (all: total and phosphorylated), H3 and H4 (total and acetylated) were analysed by western blotting. Both techniques revealed a link between mTOR and the epigenetic machinery. IGF activated mTOR, Rictor, Raptor, p70s6k and Akt, but also enhanced aH3 and aH4. Inversely, IGFr blockade and knock‐down blocked the Akt‐mTOR axis, but simultaneously diminished aH3 and aH4. VPA treatment up‐regulated histone acetylation, but also activated mTOR‐Akt signalling. HDAC1 and 2 knock‐down revealed that the interaction with the mTOR system is initiated by histone H3 acetylation. HDAC‐mTOR communication, therefore, is apparent whereby tumour‐promoting (Akt/mTOR^high, aH3/aH4^low) and tumour‐suppressing signals (Akt/mTOR^low, aH3/aH4^high) are activated in parallel. Combined use of an HDAC‐ and mTOR inhibitor might then diminish pro‐tumour effects triggered by the HDAC‐ (Akt/mTOR^high) or mTOR inhibitor (aH3/aH4^low) alone.     

Characterization of age‐associated exhausted CD8+ T cells defined by increased expression of Tim‐3 and PD‐1

Aging is accompanied by altered T‐cell responses that result in susceptibility to various diseases. Previous findings on the increased expression of inhibitory receptors, such as programmed cell death protein 1 (PD‐1), in the T cells of aged mice emphasize the importance of investigations into the relationship between T‐cell exhaustion and aging‐associated immune dysfunction. In this study, we demonstrate that T‐cell immunoglobulin mucin domain‐3 (Tim‐3), another exhaustion marker, is up‐regulated on aged T cells, especially CD8⁺ T cells. Tim‐3‐expressing cells also produced PD‐1, but Tim‐3⁺PD‐1⁺ CD8⁺ T cells had a distinct phenotype that included the expression of CD44 and CD62L, from Tim‐3^?PD‐1⁺ cells. Tim‐3⁺PD‐1⁺ CD8⁺ T cells showed more evident properties associated with exhaustion than Tim‐3^?PD‐1⁺ CD8⁺ T cells: an exhaustion‐related marker expression profile, proliferative defects following homeostatic or TCR stimulation, and altered production of cytokines. Interestingly, these cells produced a high level of IL‐10 and induced normal CD8⁺ T cells to produce IL‐10, which might contribute to immune dysregulation in aged mice. The generation of Tim‐3‐expressing CD8⁺ T cells in aged mice seems to be mediated by encounters with antigens but not by specific infection, based on their high expression of CD49d and their unbiased TCR Vβ usage. In conclusion, we found that a CD8⁺ T‐cell population with age‐associated exhaustion was distinguishable by its expression of Tim‐3. These results provide clues for understanding the alterations that occur in T‐cell populations with age and for improving dysfunctions related to the aging of the immune system.     

Targeting of preexisting and induced breast cancer stem cells with trastuzumab and trastuzumab emtansine (T-DM1)

The antibody trastuzumab (Herceptin) has substantially improved overall survival for patients with aggressive HER2-positive breast cancer. However, about 70% of all treated patients will experience relapse or disease progression. This may be related to an insufficient targeting of the CD44^highCD24^low breast cancer stem cell subset, which is not only highly resistant to chemotherapy and radiotherapy but also a poor target for trastuzumab due to low HER2 surface expression. Hence, we explored whether the new antibody-drug conjugate T-DM1, which consists of the potent chemotherapeutic DM1 coupled to trastuzumab, could improve the targeting of these tumor-initiating or metastasis-initiating cells. To this aim, primary HER2-overexpressing tumor cells as well as HER2-positive and HER2-negative breast cancer cell lines were treated with T-DM1, and effects on survival, colony formation, gene and protein expression as well as antibody internalization were assessed. This revealed that CD44^highCD24^lowHER2^low stem cell-like breast cancer cells show high endocytic activity and are thus particularly sensitive towards the antibody-drug conjugate T-DM1. Consequently, preexisting CD44^highCD24^low cancer stem cells were depleted by concentrations of T-DM1 that did not affect the bulk of the tumor cells. Likewise, colony formation was efficiently suppressed. Moreover, when tumor cells were cocultured with natural killer cells, antibody-dependent cell-mediated cytotoxicity was enhanced, and EMT-mediated induction of stem cell-like properties was prevented in differentiated tumor cells. Thus our study reveals an unanticipated targeting of stem cell-like breast cancer cells by T-DM1 that may contribute to the clinical efficacy of this recently approved antibody-drug conjugate.     

In aged mice,low surrogate light chain promotes pro‐B‐cell apoptotic resistance,compromises the PreBCR checkpoint,and favors generation of autoreactive,phosphorylcholine‐specific B cells

In aged mice, new B‐cell development is diminished and the antibody repertoire becomes more autoreactive. Our studies suggest that (i) apoptosis contributes to reduced B lymphopoiesis in old age and preferentially eliminates those B‐cell precursors with higher levels of the surrogate light chain (SLC) proteins (λ5/VpreB) and (ii) λ5^low B‐cell precursors generate new B cells which show increased reactivity to the self‐antigen/bacterial antigen phosphorylcholine (PC). Pro‐B cells in old bone marrow as well as pro‐B cells from young adult λ5‐deficient mice are resistant to cytokine‐induced apoptosis (TNFα; TGFβ), indicating that low λ5 expression in pro‐B cells is sufficient to cause increased survival. Transfer of TNFα‐producing ‘age‐associated B cells’ (ABC; CD21/35^? CD23^?) or follicular (FO) B cells from aged mice into RAG‐2 KO recipients led to preferential loss of λ5^high pro‐B cells, but retention of λ5^low, apoptosis‐resistant pro‐B cells. In old mice, there is increased reactivity to PC in both immature bone marrow B cells and mature splenic FO B cells. In young mice, absence of λ5 expression led to a similar increase in PC reactivity among bone marrow and splenic B cells. We propose that in old age, increased apoptosis, mediated in part by TNFα‐producing B cells, results in preferential loss of SLC^high pro‐B cells within the bone marrow. Further B‐cell development then occurs via an ‘SLC^low’ pathway that not only impairs B‐cell generation, but promotes autoreactivity within the naïve antibody repertoires in the bone marrow and periphery.     

Dynamic emergence of the mesenchymal CD44CD24 phenotype in HER2-gene amplified breast cancer cells with de novo resistance to trastuzumab (Herceptin)

Evidence is mounting that the occurrence of the CD44^pos/CD24^neg/low cell population, which contains potential breast cancer (BC) stem cells, could explain BC clinical resistance to HER2-targeted therapies. We investigated whether de novo refractoriness to the anti-HER2 monoclonal antibody trastuzumab (Tzb; Herceptin) may relate to the dynamic regulation of the mesenchymal CD44^pos/CD24^neg/low phenotype in HER2-positive BC. We observed that the subpopulation of Tzb-refractory JIMT-1 BC cells exhibiting CD44^pos/CD24^neg/low-surface markers switched with time. Low-passage JIMT-1 cell cultures were found to spontaneously contain ∼10% of cells bearing the CD44^pos/CD24^neg/low immunophenotype. Late-passage (>60) JIMT-1 cultures accumulated ∼80% of CD44^pos/CD24^neg/low cells and closely resembled the CD44^pos/CD24^neg/low-enriched (∼85%) cell population constitutively occurring in HER2-negative MDA-MB-231 mesenchymal BC cells. Dynamic expression of mesenchymal markers was not limited to CD44/CD24 because high-passages of JIMT-1 cells exhibited also reduced expression of the HER2 protein and over-secretion of pro-invasive/metastatic chemokines and metalloproteases. Accordingly, late-passage JIMT-1 cells displayed an exacerbated migratogenic phenotype in plastic, collagen, and fibronectin substrates. Intrinsic genetic plasticity to efficiently drive the emergence of the CD44^pos/CD24^neg/low mesenchymal phenotype may account for de novo resistance to HER2 targeting therapies in basal-like BC carrying HER2 gene amplification.     

Characterization of the expression of variant and standard CD44 in prostate cancer cells: Identification of the possible molecular mechanism of CD44/MMP9 complex formation on the cell surface

CD44 is a glycosylated adhesion molecule and osteopontin is one of its ligand. CD44 undergoes alternative splicing to produce variant isoforms. Our recent studies have shown an increase in the surface expression of CD44 isoforms (sCD44 and v4–v10 variant CD44) in prostate cancer cells over‐expressing osteopontin (PC3/OPN). Formation of CD44/MMP9 complex on the cell surface is indispensable for MMP9 activity. In this study, we have characterized the expression of variant CD44 using RT‐PCR, surface labeling with NHS–biotin, and immunoblotting. Expression of variant CD44 encompassing v4–v10 and sCD44 at mRNA and protein levels are of the same levels in PC3 and PC3/OPN cells. However, an increase in the surface expression of v6, v10, and sCD44 in PC3/OPN cells suggest that OPN may be a ligand for these isoforms. We then proceeded to determine the role of sCD44 in MMP9 activation. Based on our previous studies in osteoclasts, we hypothesized that phosphorylation of CD44 has a role on its surface expression and subsequent activation of MMP9. We have prepared TAT‐fused CD44 peptides comprising unphosphorylated and constitutively phosphorylated serine residues at positions Ser323 and Ser325. Transduction of phosphopeptides at Ser323 and Ser323/325 into PC3 cells reduced the surface levels of CD44, MMP9 activity, and cell migration; but had no effect on the membrane localization of MMP9. However, MMP9 knock‐down PC3 cells showed reduced CD44 at cellular and surface levels. Thus we conclude that surface expression of CD44 and activation of MMP9 on the cell surface are interdependent. J. Cell. Biochem. 108: 272–284, 2009. © 2009 Wiley‐Liss, Inc.     

Non-small cell lung cancer stem/progenitor cells are enriched in multiple distinct phenotypic subpopulations and exhibit plasticity

Cancer stem cells (CSCs) represent a population of cancer cells that possess unique self-renewal and differentiation characteristics required for tumorigenesis and are resistant to chemotherapy-induced apoptosis. Lung CSCs can be enriched by several markers including drug-resistant side population (SP), CD133^pos and ALDH^high. Using human non-small cell lung adenocarcinoma cell lines and patient-derived primary tumor cells, we demonstrate that SP cells represent a subpopulation distinct from other cancer stem/progenitor cell (CS/PC) populations marked by CD133^pos or ALDH^high. The non-CS/PCs and CS/PCs of each subpopulation are interconvertible. Epithelial-mesenchymal transition (EMT) promotes the formation of CD133^pos and ALDH^high CS/PC subpopulations while suppressing the SP CS/PC subpopulation. Rac1 GTPase activity is significantly increased in cells that have undergone EMT, and targeting Rac1 is effective in inhibiting the dynamic conversion of non-CS/PCs to CS/PCs, as well as the CS/PC activity. These results imply that various subpopulations of CS/PCs and non-CS/PCs may achieve a stochastic equilibrium in a defined microenvironment, and eliminating multiple subpopulations of CS/PCs and effectively blocking non-CS/PC to CS/PC transition, by an approach such as targeting Rac1, can be a more effective therapy.     

CD57(high) Neuroblastoma Cells Have Aggressive Attributes Ex Situ and an Undifferentiated Phenotype in Patients

Background

Neuroblastoma is thought to originate from neural crest-derived cells. CD57 defines migratory neural crest cells in normal development and is expressed in neuroblastoma.

Methodology and Principal Findings

We investigated the role of CD57 expression in neuroblastoma cells ex situ and in situ. Compared to CD57^low U-NB1 neuroblastoma cells, CD57^high cells developed tumors with decreased latency after orthotopic transplantation into adrenal glands of mice. In addition, CD57^high U-NB1 and SK-N-BE(2)-C neuroblastoma cells were also more clonogenic, induced more spheres and were less lineage-restricted. CD57^high cells attached better to endothelial cells and showed enhanced invasiveness. While invasion of U-NB1 cells was inhibited by blocking antibodies against CD57, neither invasion of SK-N-BE(2)-C cells nor adhesion of U-NB1 and SK-N-BE(2)-C cells was attenuated. After tail vein injection only CD57^high cells generated liver metastases, while overall metastatic rate was not increased as compared to CD57^low cells. In stroma-poor neuroblastoma of patients CD57^high cells were associated with undifferentiated tumor cells across all stages and tended to be more frequent after chemotherapy.

Conclusion

Strong expression of CD57 correlates with aggressive attributes of U-NB1 and SK-N-BE(2)-C neuroblastoma cells and is linked with undifferentiated neuroblastoma cells in patients.     

Mesenchymal stem cells modified to express lentivirus TNF‐α Tumstatin45–132 inhibit the growth of prostate cancer

Mesenchymal stem cells (MSCs) are a potential novel delivery system for cell‐based gene therapies. Although tumour necrosis factor (TNF)‐α has been shown to have antitumour activity, its use in therapy is limited by its systemic toxicity. For the present study, we designed lentivirus‐mediated signal peptide TNF‐α‐Tumstatin_45–132‐expressing mesenchymal stem cells (SPTT‐MSCs) as a novel anti‐cancer approach. We evaluated the effects of this approach on human prostate cancer cells (PC3 and LNCaP) by co‐culturing them with either SPTT‐MSCs or supernatants from their culture medium in vitro. The antitumour effects and possible mechanisms of action of SPTT‐MSCs were then determined in PC3 cells in vivo. The results showed that efficient TNF‐α‐Tumstatin_45–132‐expressing MSCs had been established, and demonstrated that SPTT‐MSCs inhibited the proliferation of and induced apoptosis in prostate cancer cells and xenograft tumours. As would be expected, given the properties of the individual proteins, the TNF‐α‐Tumstatin_45–132 fusion exerted potent cytotoxic effects on human prostate cancer cells and tumours via the death receptor‐dependent apoptotic pathway and via antiangiogenic effects. Our findings suggest that SPTT‐MSCs have significant activity against prostate cancer cells, and that they may represent a promising new therapy for prostate cancer.     

Evaluation of Cancer Stem Cell Markers CD133, CD44, CD24: Association with AKT Isoforms and Radiation Resistance in Colon Cancer Cells

The cell surface proteins CD133, CD24 and CD44 are putative markers for cancer stem cell populations in colon cancer, associated with aggressive cancer types and poor prognosis. It is important to understand how these markers may predict treatment outcomes, determined by factors such as radioresistance. The scope of this study was to assess the connection between EGFR, CD133, CD24, and CD44 (including isoforms) expression levels and radiation sensitivity, and furthermore analyze the influence of AKT isoforms on the expression patterns of these markers, to better understand the underlying molecular mechanisms in the cell. Three colon cancer cell-lines were used, HT-29, DLD-1, and HCT116, together with DLD-1 isogenic AKT knock-out cell-lines. All three cell-lines (HT-29, HCT116 and DLD-1) expressed varying amounts of CD133, CD24 and CD44 and the top ten percent of CD133 and CD44 expressing cells (CD133^high/CD44^high) were more resistant to gamma radiation than the ten percent with lowest expression (CD133^low/CD44^low). The AKT expression was lower in the fraction of cells with low CD133/CD44. Depletion of AKT1 or AKT2 using knock out cells showed for the first time that CD133 expression was associated with AKT1 but not AKT2, whereas the CD44 expression was influenced by the presence of either AKT1 or AKT2. There were several genes in the cell adhesion pathway which had significantly higher expression in the AKT2 KO cell-line compared to the AKT1 KO cell-line; however important genes in the epithelial to mesenchymal transition pathway (CDH1, VIM, TWIST1, SNAI1, SNAI2, ZEB1, ZEB2, FN1, FOXC2 and CDH2) did not differ. Our results demonstrate that CD133^high/CD44^high expressing colon cancer cells are associated with AKT and increased radiation resistance, and that different AKT isoforms have varying effects on the expression of cancer stem cell markers, which is an important consideration when targeting AKT in a clinical setting.     

Quantitative Trait Locus Analysis Implicates CD4+/CD44high Memory T Cells in the Pathogenesis of Murine Autoimmune Pancreatitis

The mouse strain MRL/MpJ is prone to spontaneously develop autoimmune pancreatitis (AIP). To elucidate the genetic control towards the development of the phenotype and to characterize contributions of immunocompetent cell types, MRL/MpJ mice were interbred with three additional strains (BXD2/TYJ, NZM2410/J, CAST/EIJ) for four generations in an advanced intercross line. Cellular phenotypes were determined by flow cytometric quantification of splenic leukocytes and complemented by the histopathological evaluation of pancreatic lesions. An Illumina SNP array was used for genotyping. QTL analyses were performed with the R implementation of HAPPY. Out of 41 leukocyte subpopulations (B cells, T cells and dendritic cells), only three were significantly associated with AIP: While CD4⁺/CD44^high memory T cells and CD4⁺/CD69⁺ T helper (Th) cells correlated positively with the disease, the cytotoxic T cell phenotype CD8⁺/CD44^low showed a negative correlation. A QTL for AIP on chromosome 2 overlapped with QTLs for CD4⁺/CD44^high and CD8⁺/CD44^high memory T cells, FoxP3⁺/CD4⁺ and FoxP3⁺/CD8⁺ regulatory T cells (Tregs), and CD8⁺/CD69⁺ cytotoxic T cells. On chromosome 6, overlapping QTLs for AIP and CD4⁺/IL17⁺ Th17 cells and again FoxP3⁺/CD8⁺ Tregs were observed. In conclusion, CD4⁺/CD44^high memory T cells are the only leukocyte subtype that could be linked to AIP both by correlation studies and from observed overlapping QTL. The potential role of this cell type in the pathogenesis of AIP warrants further investigations.