Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0015674 (chronic fatigue syndrome)
 2,978 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We demonstrated previously that cellfree supernatant of the B151K12 T cell hybridoma (B151-CFS) contained T cell-replacing factor (here in after referred to as B151-TRF1) capable of inducing growth and differentiation of antigen-activated B cells into antigen-specific plaque-forming cells (PFC). In the present study, we have identified in B151-CFS another unique lymphokine activity (referred to as B151-TRF2), which induces polyclonal differentiation of unstimulated B cells into IgM-secreting cells without concomitant stimulation of antigen, mitogen, or anti-Ig antibody. The B151-TRF2 activity induced polyclonal IgM PFC responses via the action on surface Ig-positive small resting B cells from normal unprimed mice. This activation was effective across an H-2 barrier, and apparently independent of the presence of T cells and accessory cells. Interestingly, the B151-TRF2 activity notably stimulated B cells of neonatal and mutant DBA/2Ha mice, which are nonresponders to B151-TRF1, whereas it failed to activate the xid B cells from CBA/N mice. To substantiate that B151-TRF1 and B151-TRF2 activities are mediated by mutually distinguishable molecules, an absorption experiment of B151-CFS was performed by utilizing DBA/2Ha B cells which are lacking in B151-TRF1 receptor. It was found that DBA/2Ha B cells could absorb B151-TRF2 activity but not B151-TRF1 activity. In contrast, murine chronic B cell leukemia BCL1 cells, which were shown to differentiate into IgM-secreting cells by stimulation with B151-CFS, selectively removed B151-TRF1 activity but not B151-TRF2 activity. Furthermore, biochemical analysis revealed that the B151-TRF2 was a heat (56 degrees C for 30 min)-sensitive protein with an apparent m.w. of 30,000 by gel filtration, whereas B151-TRF1 was a heat-resistant glycoprotein with m.w. of 50,000. In addition, it was shown that prostaglandin E2 selectively inhibited B151-TRF2-mediated B cell responses. These results demonstrate clearly that B151-TRF1 and B151-TRF2 are distinct B cell differentiation factors involved in the different activation pathways of distinct B cell subpopulations. The immunologic implication of B151-TRF2 activity in B cell differentiation is discussed in comparison with other lymphokines so far reported to activate small resting B cells.
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PMID:Identification of two distinct factors, B151-TRF1 and B151-TRF2, inducing differentiation of activated B cells and small resting B cells into antibody-producing cells. 351 74

Two human herpesviruses, HHV-6 and HHV-7, recently identified and closely related, were studied for their influence on cellular apoptosis and proliferation. Infection was monitored by viral DNA--and antigen expression. Apoptosis and cell proliferation were determined by immunocytological techniques and the markers p53, p21WAF/Cip, Bax, Bak, Bcl-2, cyclin D1 and PCNA, and also screened for signal transduction indicators such as c-H-ras, c-fos and raf-1. Cell differentiation and function was monitored by determining cell membrane receptors including Fas and CD specificities, and by ELISA tests for interleukin production. Both HHV-6 and HHV-7 readily infected their target cells, yet virus antigen expression and virus replication were less active in HHV-7 infection. Both viruses also induced GM-CFS production. Cell differentiation in terms of CD receptor expression was more pronounced in HHV-6 than in HHV-7 infection. No differences were found in the activity of signal transduction factors. There were quantitative differences in the activation of p53, Bax, p21WAF and Bcl-2 in HHV 6-infected CBC as compared to HHV-7 infection supporting the apoptosis cycle. CyclinD1 activity remained at lower levels in HHV-7 infected CBC, yet was high in similarly infected transformed SupT1 cells. In contrast, HHV-6 supported rather the p53/p21WAF apoptosis pathway in both untransformed CBC and transformed HSB1 cells. Both herpesviruses, HHV-6 and HHV-7, thus possessed similar biological activities in cultures of non-transformed susceptible cells, although with certain quantitative differences. The data reported here may further support the notion that HHV-7 is less active in inducing apoptosis thus favoring continued cell proliferation. The mechanism by which these viruses interfere with the network control of cell proliferation, differentiation and apoptosis appear more complicated than shown here and therefore afford a more detailed study, including a more sensitive technology than immunohistology.
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PMID:In vitro cytobiological effects of human herpesviruses 6 and 7: immunohistological monitoring of apoptosis, differentiation and cell proliferation. 949 80