Jurkat cell proliferative activity is increased by luteinizing hormone-releasing hormone

in Journal of Endocrinology
Authors:
N Azad
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N LaPaglia
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L Kirsteins
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S Uddin
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J Steiner
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D W Williams
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A M Lawrence
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N V Emanuele
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Abstract

Jurkat cells were used to study the immunomodulatory role of luteinizing hormone-releasing hormone (LHRH) in immune cells. The Jurkat cell, a human mature leukemic cell line, phenotypically resembles resting human T lymphocytes and has been widely used to study T cell physiology. The data from this study demonstrate that the Jurkat cell concentration of immunoreactive LHRH was 210 ± 36 pg/106 cells and that of proLHRH was 188 ± 27 pg/106 cells (means ± s.e.m.). The authenticity of this LHRH immunoreactivity is documented in two ways. First, both Jurkat LHRH and proLHRH immunoreactivity demonstrate dilutional parallelism with hypothalamic LHRH and proLHRH. Second, Jurkat lysates show LHRH bioactivity by releasing luteinizing hormone from rat anterior pituitary cells in culture. The presence of substantial amounts of LHRH in medium in which Jurkat cells were cultured for 72 h indicated that LHRH can be released from the cells. Using specific primers to exons 2 and 4 of the LHRH gene, we have found that Jurkat cells (like human T cells) express LHRH mRNA.

The LHRH agonist, des-Gly10,d-Trp6-LHRH ethylamide, significantly increases the proliferative activity of Jurkat cells, as assessed by tritiated thymidine incorporation, from 15 980 ± 1491 c.p.m. in controls to 28 934 ± 3395, 30 457 ± 3861 (P=0·05 vs control) or 35 299 ± 5586 c.p.m. (P<0·01 vs control) with 10−11, 10−9 or 10−7 m agonist respectively. LHRH antagonist, [d-pGlu1,d-Phe2,d-Trp3,6]-LHRH, at a concentration of 10−8 m decreases Jurkat cell proliferative activity from 17 145 ± 526 c.p.m. in control medium to 10 653 ± 1323 c.p.m. (P=0·05). Co-incubation with the LHRH antagonist completely inhibits the proliferative stimulation induced by the LHRH agonist. Furthermore, applying monoclonal LHRH antibody to Jurkat cells inhibits the cell proliferative activity assessed by tritiated thymidine incorporation from 19 900 ± 2675 c.p.m. in controls to 15 680 ± 2254, 15 792 ± 1854 and 9700 ± 908 c.p.m. in media with 1:40, 1:20 and 1:10 dilution of purified antibody respectively (P<0·01, 1:10 dilution compared with control). In addition, the cAMP level in LHRH-stimulated Jurkat cells is decreased to 74, 27 and 57% of control levels after 15, 30 and 45 min respectively of exposure to 10−7 m LHRH agonist.

In summary, Jurkat cells produce, process and release immunoreactive and bioactive LHRH, as do normal human T cells. Endogenous and exogenous LHRH increase Jurkat cell proliferative activity, and cAMP may be involved in LHRH-induced Jurkat cell proliferation. The Jurkat cell may be a useful model with which to study the role of LHRH in human T cell function.

Journal of Endocrinology (1997) 153, 241–24

 

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