David W. Montgomery

Prolactin gene expression in human thymocytes

Recent evidence suggests that lymphocytes produce prolactin (PRL). Here, we report the cDNA cloning and expression of PRL from normal human thymocytes. Sequence analysis showed that the thymocyte cDNA encodes a 23 kDa protein which is identical to pituitary PRL. RNA blot analysis showed that the thymocyte PRL mRNA is approximately 170 nucleotides larger than the pituitary PRL message. PRL message was also detected in several non-pituitary human cell lines including Jurkat T, HeLa, and JEG cells. Furthermore, PRL gene expression in JEG cells was inhibited by glucocorticoid treatment. Our data support the hypothesis that PRL is a T cell-derived cytokine.

Didemnin B: a new immunosuppressive cyclic peptide with potent activity in vitro and in vivo.

Didemnin B (DB) is a 7-amino-acid, cyclic polypeptide with potent (10−7-10−10M) antiproliferative effects in vivo and in vitro against a variety of viruses and tumor cell lines. Because lymphocyte blastogenesis is essential for many immune responses, DB appeared likely to exert immunosuppressive effects as well. Using primary cultures of murine (Balb/c) splenic mononuclear cells to evaluate this possibility, we found that DB was a potent (IC50=190 ng/ml) inhibitor of lymphocyte protein synthesis, although RNA synthesis and cell viability were unaffected. However, it markedly inhibited blastogenesis stimulated by concanavalin A (IC50=50 pg/ml), lipopolysaccharide (IC50=<100 pg/ml) and alloantigen (IC50=<10 pg/ml) when added to cultures immediately after stimulation. DB added later, at the time of thymidine labeling was much less potent (1/46–1/1430), suggesting that the lymphocyte activation process is particularly sensitive to this agent. Our finding that alloantigen-driven proliferation was exquisitely sensitive to DB (>90% inhibition at 10 pg/ml) led us to test its effects in vivo using the Simonsen parental-to-F1 graft-versus-host reaction (GVHR). Treatment of graft recipients with 0.05, 0.10, and 0.20 mg DB/kg/day for 7 days produced 51%, 40%, and 60% inhibition of splenomegally induced by the GVHR, and treatment with 0.3 mg/ kg/day on days 1, 2, 4, and 6 inhibited 71%. These data show that the in vitro inhibition of alloantigen-driven blastogenesis by DB was reproduced by in vivo treatment as well, even across major histocompatibility differences. This leads us to conclude that DB has potent immunosuppressive activity both in vitro and in vivo.

Structural and functional effects of high prolactin levels on injured endothelial cells: Evidence for an endothelial prolactin receptor

Stress has been linked to health problems such as atherosclerosis and prolonged wound healing, which involve the responses of injured endothelial cells. Though prolactin (PRL) levels become increased during the physiological response to stress, the significance and effects of these increases are largely unknown. Here we examined the effects of elevated, though physiological, concentrations of PRL on the responses of cultured endothelial cells after mechanical injury to cell monolayers. When treated at the time of injury with PRL levels of 62.5–1000 ng/mL, cells at the wound front became abnormal in shape and had reductions in f-actin staining in comparison to controls that were not PRL-treated. High PRL concentrations also inhibited the adhesion of cells to their growth surface in a dose-dependent manner. Using rhodamine-labeled PRL, we observed specific PRL uptake by these cells that suggested the presence of a PRL receptor. Finally, mRNA for the long form of the PRL receptor was detected by RT-PCR. To our knowledge, this is the first report demonstrating that (1) high PRL concentrations alter the actin cytoskeleton and adhesion of injured endothelial cells and (2) endothelial cells express the transcript for the PRL receptor. Thus, we report novel effects of PRL that may be mediated by activation of an endothelial cell PRL receptor.

Prolactin administration stimulates rat hepatic DNA synthesis

Prolactin is an important growth modulatory hormone in fetal and adult tissues. Its administration stimulates enzymatic markers of the G1 phase of cell cycle in rat liver and other tissues. To determine the effects of prolactin administration on hepatic DNA synthesis (S phase), rats received prolactin at 12 hour intervals for 48 hours and DNA synthesis was assessed by [3H]-thymidine incorporation. Prolactin administration stimulated DNA synthesis 2-4 fold above controls in the livers of adult and weanling animals. Increased incorporation of radiolabel was associated with the nucleus of hepatoparenchymal cells. These data support the hypothesis that prolactin may be a physiological regulator of hepatic DNA synthesis. Further, since stress stimulates prolactin secretion, we suggest that prolactin may participate in the hepatic compensatory hyperplasia elicited by the stress associated with partial hepatectomy.

Methotrexate causes apoptosis in postmitotic endothelial cells.

Methotrexate (MTX) is a commonly used chemotherapy agent for a variety of cancers. However, therapeutic levels are associated with numerous untoward effects such as central nervous system damage in children with acute lymphoblastic leukemia. The purpose of this study was to determine if MTX caused injury to endothelial cells using cultured bovine pulmonary artery endothelial cells as a model. Light microscopy showed gaps between cells and reduced numbers of endothelial cells after exposure to MTX (10 M), a range consistent with therapeutic drug levels. Proliferation and viability of subconfluent and confluent MTX-treated endothelial cells were measured by colorimetric (MTS) assay. There was a significant decline in cell numbers in MTX-treated subconfluent (growing) cells cultured after 4 days of MTX exposure compared to controls, as expected. However, there was also an unexpected decline in cell numbers in MTX-treated postmitotic endothelial cells after 1, 3, and 4 days of drug exposure. This suggested that MTX induced endothelial cell death. Fluorescent ApoAlert™ Enhanced Annexin-V binding demonstrated apoptosis in endothelial cells after 1 day of MTX exposure. Apoptosis was confirmed by a DNA fragment assay. This is apparently the first report of MTX-induced apoptosis of postmitotic, cultured endothelial cells. The findings suggest that apoptosis may be one mechanism of MTX-induced injury to endothelial cells.

Didemnin B - An immunosuppressive cyclic peptide that stimulates murine hemagglutinating antibody responses and induces leukocytosis in vivo

Didemnin B (DB) is a cyclic peptide with potent immunosuppressive activity in vitro and in the murine graft-versus-host-reaction (GVHR), the only measure of in vivo immunity tested in our prior studies. Because continued production of mature leukocytes by bone marrow and an intact antibody response are crucial to defense against infection in immunosuppressed patients, we have evaluated the effects of DB on these processes as well. Anti-sheep red blood cell (SRBC) hemagglutinating antibody (hAb) production was induced by i.p. injection of 5×107 SRBC in CB6F1, mice (5/group) treated with vehicle or DB once/day for six days. Serum was collected on day 7 and hAb titers measured by SRBC agglutination. Control antibody titers were 1/16, while animals receiving DB doses of 0.025, 0.05, 0.10, and 0.20 mg/kg/day yielded titers of 1/37, 1/74, 1/56, and 1/74, respectively. This stimulation of hAb production (4.6 × control) was confirmed by a second experiment. We then studied DB effects (0.1 mg/kg/day x 6 days) on serum hAb titers in separate groups of five mice at 7, 10, 15, and 20 days postimmunization. Control hAb titers were 1/110 on day 7, then dropped to 1/60 on days 10, 15, and 20. DB-treated animals had titers of 1/130 on day 7, and 1/170 on days 10–20. These data show hat DB treatment in vivo causes a persisting increase

Identification of prolactin receptors in hepatic nuclei

Prolactin is a trophic hormone which may act directly at the hepatocyte nucleus. In this study, specific prolactin binding sites were sought in purified rat liver nuclei. Saturable and specific, high affinity 125I-prolactin binding sites were demonstrated to be on or within the nucleus. Prolactin binding was competitively inhibited by rat and ovine prolactins but not by rat growth hormone. Using immunogold electron microscopy, we detected prolactin receptors throughout the nucleus, in association with heterochromatin. Furthermore, endogenous immunoreactive prolactin was demonstrated to be within hepatic nuclei. We conclude that rat liver nuclei possess prolactin binding sites which likely participate in hormone-directed growth processes.

Prolactin receptor signaling: shared components with the T-cell antigen receptor in Nb2 lymphoma cells.

Previously, we reported that activation of the human prolactin receptor (PRLR) produced a protein phosphorylation pattern strikingly similar to that provoked by Concanavalin A (Con A), an activator of the T-cell antigen receptor (TCR). These results suggested that certain signaling components of the TCR may be shared by the activated PRLR. Additional studies here assessed the levels of TCR expression following PRLR stimulation and the effect of TCR activation on PRL-stimulated proliferation in lactogen-dependent pre-T Nb2-11 lymphoma cells. The results indicated that the TCR was expressed on the surface of approx 4% of exponentially proliferating and prolactin- (PRL) treated cells. In contrast, approx 45% of quiescent cells, cultured in the absence of PRL for 24 h, expressed the TCR at the cell surface, suggesting that lactogen withdrawal may up-regulate TCR cell-surface expression. Moreover, TCR activation with anti-CD3 antibodies attenuated PRL-stimulated Nb2-11 cell proliferation in a concentration-dependent manner. In other experiments, immunoprecipitation and immunoblotting of Nb2-11 lysates revealed that activation of the PRLR resulted in rapid tyrosyl phosphorylation of ZAP-70, a critical TCR-associated tyrosine kinase. In addition, ZAP-70 was found to associate transiently with the putative guanine nucleotide exchange factor and substrate, Vav, in PRL-treated cells. ZAP-70 was also found to associate constitutively with the PRLR; PRL stimulation provoked the transient recruitment of Vav to the complex. These observations suggest that PRL signaling reflects the transient formation of a PRLR-ZAP-70-Vav complex and its immunomodulatory actions involve diverse interactions that affect TCR expression and signaling mechanisms.

A specific binding site in Nb2 node lymphoma cells mediates the effects of didemnin B, an immunosuppressive cyclic peptide

Didemnin B (DB) is a cyclic depsipeptide with a variety of biologic effects, including potent antiviral, antitumor, and immunosuppressive activities. Although its mechanism of action has been attributed to inhibition of DNA and protein synthesis, the exact cellular site of interaction has not been previously defined. Since DB is strongly antiproliferative in Nb2 node lymphoma cells, we investigated potential DB binding sites in these cells, using [3H]-DB (2.7 mCi/mg) as the radiolabeled ligand. Time course studies with Nb2 cells showed that steady state [3H]-DB binding was attained after 4 h. Scatchard analysis with resting cells yielded a Kd of 180 nM (200 ng/ml), and 7 x 10(6) binding sites/cell. The IC50 of DB inhibition of ongoing protein and DNA synthesis in Nb2 cells, measured 24 h after prolactin (PRL) stimulation, was also in the range of 100 ng/ml. Didemnin analogs, with alterations at critical amino acid residues, inhibited the synthesis of DNA and protein and competed with [3H]-DB binding with the same rank order of potency. This implies that this binding site may mediate the inhibition of macromolecule synthesis. Subcellular fractionation of [3H]-DB labeled Nb2 cells revealed that specific binding occurred predominantly in the 100,000 g cytosolic fraction. Comparison with cyclophilin and the FK506 binding protein, both cytosolic receptors, suggests that the DB binding site may also belong to the family of immunophilins.

Age-related differences in cigarette smoke extract-induced H2O2 production by lung endothelial cells

Cigarette smoke causes oxidative stress in the lung resulting in injury and disease. The purpose of this study was to determine if there were age-related differences in cigarette smoke extract (CSE)-induced production of reactive species in single and co-cultures of alveolar epithelial type I (AT I) cells and microvascular endothelial cells harvested from the lungs (MVECLs) of neonatal, young and old male Fischer 344 rats. Cultures of AT I cells and MVECLs grown separately (single culture) and together (co-culture) were exposed to CSE (1, 10, 50, 100%). Cultures were assayed for the production of intracellular reactive oxygen species (ROS), hydroxyl radical (OH), peroxynitrite (ONOO(-)), nitric oxide (NO) and extracellular hydrogen peroxide (H(2)O(2)). Single and co-cultures of AT I cells and MVECLs from all three ages produced minimal intracellular ROS in response to CSE. All ages of MVECLs produced H(2)O(2) in response to CSE, but young MVECLs produced significantly less H(2)O(2) compared to neonatal and old MVECLs. Interestingly, when grown as a co-culture with age-matched AT I cells, neonatal and old MVECLs demonstrated ~50% reduction in H(2)O(2) production in response to CSE. However, H(2)O(2) production in young MVECLs grown as a co-culture with young AT I cells did not change with CSE exposure. To begin investigating for a potential mechanism to explain the reduction in H(2)O(2) production in the co-cultures, we evaluated single and co-cultures for extracellular total antioxidant capacity. We also performed gene expression profiling specific to oxidant and anti-oxidant pathways. The total antioxidant capacity of the AT I cell supernatant was ~5 times greater than that of the MVECLs, and when grown as a co-culture and exposed to CSE (≥ 10%), the total antioxidant capacity of the supernatant was reduced by ~50%. There were no age-related differences in total antioxidant capacity of the cell supernatants. Gene expression profiling found eight genes to be significantly up-regulated or down-regulated. This is the first study to describe age-related differences in MVECLs exposed to CSE.