DNA lesion bypass polymerases and 4’-thio-β-Darabinofuranosylcytosine (T-araC)

The 4’-thio-β-D-arabinofuranosylcytosine (T-araC) is a newly developed nucleoside analog that has shown promising activity against a broad spectrum of human solid tumors in both cellular and xenograft mice models. TaraC shares similar structure with another anticancer deoxycytidine analog, β-D-arabinofuranosylcytosine (araC, cytarabine), which has been used in clinics for the treatment of acute myelogenous leukemia but has a very limited efficacy against solid tumors. T-araC exerts its anticancer activity mainly by inhibiting replicative DNA polymerases from further extension after its incorporation into DNA. DNA lesion bypass polymerases can manage the DNA lesions introduced by therapeutic agents, such as cisplatin and araC, therefore reduce the activity of these compounds. In this study, the potential relationships between the lesion bypass Y-family DNA polymerases η, ι and κ (pol η, pol ι, and pol κ) and T-araC were examined. Biochemical studies indicated that the triphosphate metabolite of T-araC is a less preferred substrate for the Y-family polymerases. In addition, cell viability study indicated that pol η deficient human fibroblast cells were more sensitive to T-araC when compared with the normal human fibroblast cells. Together, these results suggest that bypass polymerases reduced cell sensitivity to T-araC through helping cells to overcome the DNA damages introduced by T-araC.     

Role of different lymphocyte subsets in human anti-viral T cell cultures

We have systematically studied uncloned human cell lines derived from anti-influenza A virus or anti-Epstein-Barr virus (EBV) bulk cultures, or from cultures highly enriched for CD4+ or CD8+ lymphocytes. The most noteworthy results are the following: (1) Anti-viral bulk cultures consisted of more than 90% of CD8+ cells in all cases. In contrast, anti-HLA cell lines are composed of approximately 50% CD8+ and 50% CD4+ cells. All of the CD8+ and CD4+ cells present in the culture were also 4B4+/2H4-. (2) In anti-viral bulk cultures, the cytolytic activity was restricted by HLA class I molecules and almost exclusively through a single HLA class I molecule. (3) Positively or negatively selected CD8+ lines showed the same restriction pattern. They grew less efficiently than bulk cultures but could be maintained in the absence of CD4+ cells. The CD4+ cells were however necessary at the beginning of the culture for the development of cytolytic anti-influenza virus CD8+ cells, whereas they were not required for the development of cytolytic anti-EBV CD8+ cells. (4) The CD4+ cell lines grew more actively than bulk cultures. A cytolytic activity for virus-infected cells was constantly detected in these culture from the third passage onward and it was always restricted by HLA class II molecules. This activity was maintained throughout the culture period. However, class II-restricted cytolytic cells were not detected during primary or secondary responses in vitro.     

Synthesis and biological activity of new arenediyne-linked isoxazolidines

Arenediyne–isoxazolidine conjugates have been synthesized as a new scaffold for the development of bioactive mimics. Some of the synthesized compounds are endowed with antiproliferative activity against three human cancer cell lines. Their thermal reactivity suggests that the biological activity probably could not be linked to the Bergman cyclization.     

Antitumor agents 283. Further elaboration of desmosdumotin C analogs as potent antitumor agents: activation of spindle assembly checkpoint as possible mode of action

In our ongoing study of the desmosdumotin C (1) series, twelve new analogues, 21-32, mainly with structural modifications in ring-A, were prepared and evaluated for in vitro antiproliferative activity against several human tumor cell lines. Among them, the 4'-iodo-3,3,5-tripropyl-4-methoxy analogue (31) showed significant antiproliferative activity against multiple human tumor cell lines with ED(50) values of 1.1-2.8 μM. Elongation of the C-3 and C-5 carbon chains reduced activity relative to propyl substituted analogues; however, activity was still better than that of natural compound 1. Among analogues with various ether groups on C-4, compounds with methyl (2) and propyl (26) ethers inhibited cell growth of multiple tumor cells lines, while 28 with an isobutyl ether showed selective antiproliferative activity against lung cancer A549 cells (ED(50) 1.7 μM). The gene expression profiles showed that 3 may modulate the spindle assembly checkpoint (SAC) and chromosome separation, and thus, arrest cells at the G2/M-phase.     

CTLA-4 and CD28 mRNA are coexpressed in most T cells after activation. Expression of CTLA-4 and CD28 mRNA does not correlate with the pattern of lymphokine production.

Ag-presenting cells provide at least two distinct signals for T cell activation. T cell receptor-dependent stimulation is provided by presentation of a specific peptide Ag in association with MHC molecules. In addition, APC also supply costimulatory signals required for T cell activation that are neither Ag- nor MHC restricted. One such costimulatory signal is mediated via the interaction of B7 on APC with the CD28 receptor on T cells. Recently, CTLA-4 has been shown to be a second B7 receptor on T cells. In the present report, we have examined the expression of CD28 and CTLA-4 on a panel of resting and activated normal T cell subsets and T cell clones by RNA blot analysis in an attempt to determine whether their expression defines reciprocal or overlapping subsets. CD28 was detected in resting T cells, whereas CTLA-4 was not. After stimulation with PHA and PMA for 24 h, CTLA-4 mRNA was expressed in both the CD4+ and CD8+ subsets as well as in CD28+ T cells. We examined 37 human and six murine T cell clones that had been previously characterized for their cytokine production. After activation, CTLA-4 and CD28 mRNA were coexpressed in 36 of 37 human T cell clones and all six murine T cell clones. These included T cells of CD4+8-, CD4-8+, and CD4-8- phenotypes as well as clones with Th1 and Th2 cytokine profiles. In contrast, CD28 but not CTLA-4 mRNA was detected in leukemic T cell lines and myelomas. CTLA-4 and B7 mRNA but not CD28 mRNA was detected in two long term HTLV-I-transformed T cell lines. These data demonstrate that CD28 and CTLA-4 mRNA are coexpressed in most activated T cells and T cell clones, providing evidence that they do not define reciprocal subsets. Moreover, they are consistent with the hypothesis that B7 transmits its signal through a single receptor, CD28, on resting T cells, and multiple receptors, CD28 and CTLA-4, on activated T cells.     

CD4 is involved in a post-binding event in the cytolytic reaction mediated by human CD4+ cytotoxic T lymphocyte clones

CTL lyse their target cells in discrete phases. First, the CTL bind to the target cell in a Mg2+-dependent manner followed by a Ca2+-dependent cytolytic phase. In the present study, we investigated the role of CD4 in the different phases of the cytolytic reaction mediated by human CD4+ class II MHC-specific CTL clones by using a single cell assay. It was found that the anti-CD4+ mAb OKT4A, which blocks cytotoxic reactions by CD4+ CTL clones as measured with a 51Cr release assay, only marginally affects the formation of conjugates. It appeared that OKT4A more strongly blocked the post-binding phase of the cytolytic reaction. In contrast, anti-leukocyte function-associated mAb strongly blocked the formation of conjugates but not the subsequent lytic phase. As was found previously with CD8+ CTL clones, anti-TCR mAb generally did not affect the formation of conjugates. One exception was noted. The activity of a CD4+ CTL clone, HY-640, could not be blocked by OKT4A, but was affected by an anti-TCR mAb. This anti-TCR mAb could partly reduce the formation of conjugates between HY-640 cells and their specific target cells. These results suggest that this clone has a high affinity TCR, which can contribute to the formation of conjugates. Although preincubation of the CTL clones with OKT4A only marginally affects the number of conjugates upon subsequent mixture with target cells, it was observed that incubation at 37 degrees C of preformed conjugates with OKT4A markedly reduced the number of conjugates. This dissociation of preformed conjugates was optimal only after 2 h of incubation. In contrast, an anti-leukocyte function-associated mAb induced a much more rapid dissociation of preformed conjugates.     

Preparation, properties and antileukemic activity of arabinosylcytosine polysaccharide conjugates

1. Conjugates of 1-beta-D-arabinofuranosylcytosine (araC) with polysaccharides containing carboxyl groups, such as polygalacturonic acid (PGA) and carboxymethylated yeast beta-D-glucan (CMG) were prepared. 2. Activation of the polysaccharidic carboxyl group by isobutylchloroformiate and formation of a peptide bond via 4-NH2 group of araC was used for a coupling reaction. 3. Elementary analysis, u.v. and i.r. spectra confirmed the structures of the conjugates. 4. The conjugates were most stable against the hydrolysis under the mild acid conditions. 5. It was also shown that under the physiological conditions trypsin catalyze the conjugate hydrolysis and the catalytic effect is higher than that of chymotrypsine. 6. It is suggested that trypsin or trypsin-like proteases could participate in the hydrolysis of the conjugates in vivo. PGA-araC and CMG-araC showed 1.5- or 2.5-times higher antileukemic activity than both free araC or polysaccharides.     

Dendritic cells generated either from CD34+ progenitor cells or from monocytes differ in their ability to activate antigen-specific CD8+ T cells.

Dendritic cells (DC) can be generated in vitro from monocytes (M-DC) or from CD34+ hemopoietic progenitor cells (CD34-DC) but their precursors are not equivalent cells, prompting a comparison of the functional capacities of these APC. Both types of DCs established from the same individuals using the same cytokines displayed a comparable phenotype of mature DC (CD1a+, CD83+, CD86+, CD4+, HLA-DR++, CD14-, CD15- ) and were equally potent stimulators of allogeneic T cell proliferation, being both more powerful than immature M-DCs. An autologous panel of APCs produced in HLA-A2+ individuals, including CD34-DC, M-DC, monocytes, and EBV-lymphoid cell line was comparatively evaluated for presentation of the Erb-B2 peptide E75 to a CTL line. After short exposures (5 h) to E75-loaded APCs, similar levels of intracellular IFN-gamma were induced in Ag-specific CD8+ T cells regardless of APC type. In sustained cultures (4-14 days), more Ag-specific T cells were obtained when peptide was presented on CD34-DC (p < 0.05) rather than on M-DC, EBV-lymphoid cell lines, or monocytes, and these effects were dose-dependent. Activated T cells expressed 4-1BB, and the presence of 4-1BB-Ig fusion protein partially blocked Ag-specific CD8+ cell activation after CD34-DC or M-DC presentation. Our results show that 34-DC have a preferential capacity to activate CD8+ T cells and that this property is not strictly correlated to their ability to induce allogeneic T cell proliferation but due to mechanisms that remain to be defined.     

TGF-beta 1 plays an important role in the mechanism of CD4+CD25+ regulatory T cell activity in both humans and mice

In previous studies, we have shown that murine CD4+CD25+ regulatory T cells produce high levels of TGF-beta1 in a cell surface and/or secreted form, and blockade of such TGF-beta1 by anti-TGF-beta curtails the ability of these cells to suppress CD25- T cell proliferation and B cell Ig production in in vitro suppressor assays. In further support for the role of TGF-beta1 in suppression by CD4+CD25+ T cells, we show in this study that another TGF-beta1-blocking molecule, recombinant latency-associated peptide of TGF-beta1 (rLAP), also reverses suppression by mouse CD4+CD25+ T cells as well as their human counterparts, CD4+CD25(high) T cells. In addition, we show that CD25- T cells exposed to CD4+CD25+ T cells in vitro manifest activation of Smad-2 and induction of CD103, the latter a TGF-beta-inducible surface integrin. In further studies, we show that while CD4+CD25+ T cells from TGF-beta1-deficient mice can suppress CD25- T cell proliferation in vitro, these cells do not protect recipient mice from colitis in the SCID transfer model in vivo, and, in addition, CD4+LAP+, but not CD4+LAP- T cells from normal mice protect recipient mice from colitis in this model. Together, these studies demonstrate that TGF-beta1 produced by CD4+CD25+ T cells is involved in the suppressor activity of these cells, particularly in their ability to regulate intestinal inflammation.     

Myasthenia gravis. T epitopes on the delta subunit of human muscle acetylcholine receptor.

Autoimmune T cell lines specific for muscle nicotinic acetylcholine receptor (AChR) were propagated from the blood of three myasthenia gravis patients by the use of a pool of synthetic peptides (delta-pool) corresponding to the complete sequence of the delta-subunit of human muscle AChR. Propagation of AChR-specific T cell lines was attempted unsuccessfully from four other myasthenia gravis patients and from four healthy controls. The lines had CD3+, CD4+, CD8- phenotype, strongly recognized the delta-pool, and cross-reacted vigorously with non-denatured AChR purified from mammalian muscle. They did not cross-react detectably with pools of similar overlapping synthetic peptides corresponding to the complete sequences of the alpha- and gamma-subunits of human muscle AChR. The sequence segments of the delta-subunit that contain T epitopes were identified by investigating the response of the three CD4+ T cell lines to the individual synthetic peptides forming the delta-pool. Each line had an individual pattern of peptide recognition. Although no immunodominant region, recognized in association with different DR haplotypes, could be identified, the sequence segments most strongly recognized by the CD4+ T cell lines were clustered within residues 121-290. One of the peptides more strongly recognized by the T cells corresponded to a sequence segment with high predicted propensity to form an amphipathic alpha-helix, a structural motif proposed to be typical of T epitopes.     

A virus-specific CD4+ cell-mediated cytolytic activity revealed by CD8+ cell elimination regularly develops in uncloned human antiviral cell lines

Antiviral HLA class II-restricted cytotoxic CD4+ clones have been relatively well characterized in vitro but their significance in the immune response remains unknown. Here anti-influenza A and anti-EBV CD4+ CTL have been studied by using permanent cell lines either untreated or depleted of CD8+ cells. In bulk cultures, HLA class I-restricted anti-viral CD8+ CTL account for all of the detectable killer cell activity, whereas after elimination of CD8+ cells an HLA class II-restricted killer activity mediated by CD4+/2H4-/4B4+ cells was consistently observed. The CD4+ CTL were fully differentiated in all of the cultures tested from the third in vitro passage because they could be demonstrated immediately after elimination of CD8+ cells. These CD4+ killer cells were equivalent to the CD8+ cells in terms of their lytic capacity. The absence of any class II-restricted antiviral activity in bulk cultures seems to be related to the very small numbers of CD4+ cells present in these antiviral cell lines. However, CD4+ cytolytic activity could not be detected during the first two in vitro passages, even when limiting dilution analysis of the CTL precursors were performed, showing that the killer function of Th cells differentiate only after several in vitro stimulations.     

A novel homodimeric molecule involved in human T cell activation

A mAb, 10D1, was obtained by fusing spleen cells from BALB/c mice immunized with a CD3/TCR- human T cell line, P12/ichikawa, to mouse myeloma cells, P3X63-Ag8-653. 10D1 mAb is specific for T cells in that it reacted with all the T cell lines tested, but not with B or myeloid cell lines. A small fraction of normal peripheral blood T cells, preferentially CD4+, was also reactive with 10D1 mAb. Biochemical studies revealed that 10D1 mAb recognizes a disulfide-linked homodimeric molecule composed of 90-kDa polypeptide. 10D1 mAb induced a substantial proliferation of peripheral blood T cells when cross-linked with goat anti-mouse Ig antibody. The elimination of CD4+ cells totally abrogated the proliferative response induced by 10D1 mAb, whereas the elimination of CD8+ cells rather enhanced it. The proliferative response of peripheral blood T cells induced by 10D1 mAb was almost completely inhibited after modulation of the CD3/TCR complex with anti-CD3 mAb. In addition, a prompt increase in intracellular [Ca2+] was observed in a CD3+ T cell line, Jurkat but not in its surface CD3- mutant when 10D1 mAb was added. These results indicate that the 10D1 molecule is involved in a novel pathway of human CD4+ T cell activation, which is associated with the CD3/TCR-mediated pathway.     

Resistance of primary CD8+ cytotoxic T lymphocytes to lysis by cytotoxic granules from cloned T cell lines

Recent evidence has shown that cloned, murine CTL cell lines are resistant to the cytotoxic components of the toxic granules they release upon specific interaction with their target cells. Inasmuch as the resistance might be due to selection in culture over many months by repeated exposure to these cytolytic components (which are released repeatedly as a result of the cultured CTL being periodically stimulated by target cells), we asked whether primary CTL are also resistant. The primary CTL were elicited in vivo by i.p. injection of allogeneic tumor cells or in vitro by 5- to 6-day MLC or by 48-h exposure to the lectin Con A. The responding cells were separated into purified CD8+ (i.e., CD4-, CD8+) and purified CD4+ (i.e., CD4+, CD8-) T cell populations that were analyzed for cytolytic activity and for resistance to lysis by toxic secretory granules derived from cloned CTL cell lines. The CD8+ T cells were highly cytolytic and relatively resistant; they retained their cytolytic activity and were lysed to a minimal extent (0 to 10%) by quantities of isolated granules that lysed 80 to 90% of the P815 tumor cell line (tested as a representative standard cell line). The CD4+ T cells, in contrast, had only minimal cytolytic activity and were far more susceptible to granule-mediated lysis. Although the resistance of primary CD8+ T cells is impressive, it is not as pronounced as the resistance of the cloned CTL cell lines, indicating that during long-term culture there is some selection for increased resistance to granule-mediated lysis. In contrast to T cells (especially CD8+ T cells), Ia+ macrophages, isolated from primary immune peritoneal exudates, were highly susceptible to granule-mediated lysis.     

Evidence for human CD4+ T cells in the CD1-restricted repertoire: derivation of mycobacteria-reactive T cells from leprosy lesions

Both the CD4-CD8- (double negative) and CD4-CD8+ T cell lineages have been shown to contain T cells which recognize microbial lipid and glycolipid Ags in the context of human CD1 molecules. To determine whether T cells expressing the CD4 coreceptor could recognize Ag in the context of CD1, we derived CD4+ T cell lines from the lesions of leprosy patients. We identified three CD4+ Mycobacterium leprae-reactive, CD1-restricted T cell lines: two CD1b restricted and one CD1c restricted. These T cell lines recognize mycobacterial Ags, one of which has not been previously described for CD1-restricted T cells. The response of CD4+ CD1-restricted T cells, unlike MHC class II-restricted T cells, was not inhibited by anti-CD4 mAb, suggesting that the CD4 coreceptor does not impact positive or negative selection of CD1-restricted T cells. The CD4+ CD1-restricted T cell lines produced IFN-gamma and GM-CSF, the Th1 pattern of cytokines required for cell-mediated immunity against intracellular pathogens, but no detectable IL-4. The existence of CD4+ CD1-restricted T cells that produce a Th1 cytokine pattern suggests a contributory role in immunity to mycobacterial infection.     

Comparative analysis of CD4-mediated down-regulation of T cell adhesion to B cells by flow cytometry and fluorescence microscopy

We have previously shown by means of fluorescence microscopy that antigen-independent adhesion of resting CD4 T cells to EBV-transformed B cells can be down-regulated by ligand interaction with CD4. In this study we used flow cytometry analysis of conjugate formation to confirm these findings. No conjugates between resting CD4 + T cells and B cells were initially detected in the latter method, because flow velocity in the flow chamber induces hydrodynamic elongation forces which disrupt low-affinity conjugates. After forcing cell conjugation by low-speed centrifugation of T and B cells, conjugates became detectable although in smaller numbers than in fluorescence microscopy. "Forced" cell conjugates had similar characteristics to their unforced counterparts, i.e., 37 degrees C temperature dependency, mediation by LFA-1/ICAM-1 and CD2/LFA-3 pathways, and transiency. The latter characteristic was at least partly mediated by CD4/HLA class II interaction, since adhesion of CD4 + T cells to HLA class II-B cells was more stable. In addition, adhesion was inhibited by anti-CD4 antibodies but not by an HLA DR-derived peptide known to inhibit unforced CD4 + T cell adhesion to B cells. This blocking effect was partially reproduced by reducing the centrifugation time prior to the adhesion assay. These results show that a) CD4-mediated down-regulation of T cell adhesion can be observed by means of two different techniques, and b) analysis of cell-cell adhesion after increasing centrifugation times (and possibly speeds) is a simple way of measuring adhesion forces semiquantitatively.     

Human immunodeficiency virus type 2 infection and fusion of CD4-negative human cell lines: induction and enhancement by soluble CD4.

We describe human immunodeficiency type 2 (HIV-2) strains which induce cell-to-cell fusion and infect certain CD4- human cell lines. Soluble CD4 (sCD4) induces or enhances fusion by most HIV-2 strains tested. Soluble CD4-immunoglobulin G chimeras and conjugates of sCD4 and antibody to the third domain of CD4 block HIV-2 fusion of CD4- cells. We conclude that HIV-2 can enter CD4- cells via an alternative cell surface receptor to CD4. While some strains entered efficiently, others retained a dependency on an interaction with sCD4 to initiate changes in the virion envelope required for membrane fusion.     

Modification of the amino terminus of a class II epitope confers resistance to degradation by CD13 on dendritic cells and enhances presentation to T cells

Dendritic cells and human B cell lines were compared for ability to present synthetic peptides corresponding to residues 145-159 and 188-203 of human Ig kappa-chains to peptide-specific mouse T cell hybridomas restricted by HLA-DR4Dw4. B cell lines presented both peptides, but dendritic cells could only efficiently present the latter epitope. In this paper, we show that dendritic cells degrade the 145-159 peptide, removing four residues from the amino terminus. Binding of the peptide to the class II restriction element is not required for this process. The degradation product is resistant to further cleavage, accumulates in the culture supernatant, and does not bind to HLA-DR4Dw4 or stimulate T cell reactivity. Cleavage can be blocked with bestatin, but not with other protease inhibitors tested, or by a mAb directed against aminopeptidase N (CD13). Addition of an acetyl group to the amino terminus of peptide 145-159 also blocks degradation, and allows dendritic cells to present the peptide to specific T cells with greatly increased efficiency. These results demonstrate that CD13 on dendritic cells is able to selectively and efficiently degrade exogenously provided peptide Ags, in a process that can be blocked by addition of an acetyl group to the amino terminus of the peptide. Modification of the amino terminus of peptide epitopes susceptible to degradation may prove to be useful as a general strategy for enhancing their immunogenicity.     

Efficient transfer of a tumor antigen-reactive TCR to human peripheral blood lymphocytes confers anti-tumor reactivity.

The tumor-associated-Ag MART-1 is expressed by most human melanomas. The genes encoding an alphabeta TCR from a MART-1-specific, HLA-A2-restricted, human T cell clone have been efficiently transferred and expressed in human PBL. These retrovirally transduced PBL cultures were MART-1 peptide reactive, and most cultures recognized HLA-A2+ melanoma lines. Limiting dilution clones were generated from three bulk transduced PBL cultures to investigate the function of individual clones within the transduced cultures. Twenty-nine of 29 CD8+ clones specifically secreted IFN-gamma in response to T2 cells pulsed with MART-1(27-35) peptide, and 23 of 29 specifically secreted IFN-gamma in response to HLA-A2+ melanoma lines. Additionally, 23 of 29 CD8+ clones lysed T2 cells pulsed with the MART-1(27-35) peptide and 15 of 29 lysed the HLA-A2+ melanoma line 888. CD4+ clones specifically secreted IFN-gamma in response to T2 cells pulsed with the MART-1(27-35) peptide. TCR gene transfer to patient PBL can produce CTL with anti-tumor reactivity in vitro and could potentially offer a treatment for patients with metastatic melanoma. This approach could also be applied to the treatment of other tumors and viral infections. Additionally, TCR gene transfer offers unique opportunities to study the fate of adoptively transferred T cells in vivo.