The expression of CD38 by B cells chronic lymphocytic leukemia (B-CLL) was studied in 20 untreated patients. The cells expressed abundant CD38 (relative fluorescence intensity range, 6 to 15) in 6 cases (group I patients), whereas CD38 expression was low to absent (relative fluorescence intensity range, 0 to 3) in the remaining cases (group II patients). Exposure of the cells from group I patients to goat antihuman mu chain antibodies (Ga mu-ab) resulted in the elevation of intracellular free Ca2+ concentration([Ca2+]i) followed by apoptosis. In contrast, exposure of group II cells to Ga mu-ab was not followed by increased levels of [Ca2+]i, programmed cell death or cell proliferation. No differences in the expression of surface IgM were noted in the two groups of B-CLL cells. Normal peripheral blood B cells, which expressed low to absent CD38, were capable of mobilizing [Ca2+]i and of proliferating after exposure to Ga mu-ab. The collected data suggest that, although group I B-CLL cells were able to transduce the signals delivered by IgM crosslinking, this pathway was severely impaired in group II B-CLL cells. However, unlike that observed in normal circulating B cells, stimulation of group I cells with Ga mu-ab resulted in apoptosis rather than proliferation. CD38 did not appear to be directly involved in [Ca2+]i mobilization induced by Ga mu-ab in group I B-CLL cells because their exposure to anti-CD38 monoclonal antibodies failed to cause [Ca2+]i mobilization or to block the [Ca2+]i response induced by Ga mu-ab. These data indicate that CD38 expression identified a particular subset of B-CLL cells with defined functional properties, including the propensity to undergo apoptosis.
This study elucidated the hybridization behavior of surface-bound oligonucleotides to their longer PCR-amplified targets. The screen-printed gold surface of disposable electrodes was the platform onto which thiol-tethered oligonucleotides (21-mer) were immobilized by chemisorption. As a model case, approximately 600-bp amplicons were studied. Surface hybridization was monitored by means of an enzyme-linked assay with electrochemical detection. Use of different surface-tethered probe sequences over a wide range of surface densities was explored to achieve the highest duplex yield. Both the surface coverage by the probe and its relative position on the target strand were found to control the efficiency of capture of the target sequence. Interfacial hybridization occurred with the highest efficiency for a probe coverage of approximately 2.9 x 10(12) molecules/cm2 and when the 3' end of the amplicon was involved. An unusual (bell-shaped) response/amplicon concentration profile was additionally found. It was hypothesised that when the amount of solution-phase target is relatively high, random collisions make reannealing of the approximately 600-bp strands favored over formation of the surface-tethered probe-amplicon complex. This paper also describes a strategy to enhance the sensitivity of enzyme-linked hybridization assays. Such a strategy relies on formation, around the long target sequence, of dendritic-like structures, which could offer multiple anchoring points for the enzyme conjugate. The results shown in this work might have great significance for the practical application of hybridization to oligonucleotide chips.
Tissue transglutaminase (tTG) is a Ca 2+ -dependent crosslinking enzyme that participates in the apoptotic machinery by irreversibly assembling a protein scaffold that prevents the leakage of intracellular components. In the present study a single-chain antibody fragment (scFv) detecting tTG is described. We demonstrate that TG/F8 scFv, selected from a phase display library of human Vgene segments by binding to guinea-pig liver tTG, can react with human tTG both in Western blot and in immunohistochemistry. The specific detection of tTG by TG/F8 in human thymocytes is verified by mass spectrometric analysis of the purified protein. Furthermore, we demonstrate that in lymphoid cells tTG is cleaved by caspase 3 during the late phase of apoptotic death, concomitant to DNA fragmentation, and that such cleavage causes loss of cross-linking function. We propose tTG cleavage as a valuable biochemical marker of caspase 3 activation during the late execution phase of apoptosis.
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