Modulation of murine hemopoiesis in vivo by a synthetic hemoregulatory pentapeptide (HP 5b)

A synthetic pentapeptide analogous to an inhibitory factor associated with human granulocytes was tested in vivo on female C3H mice. The relative and absolute numbers of myelopoietic and erythropoietic cells in the bone marrow were measured following injections as well as the continuous infusion of the pentapeptide in dose ranges between 10(-8)M and 10(-4)M (0.12 micrograms to 1.2 mg/mouse). In low doses, the pentapeptide reduced the number of myelopoietic cells in the bone marrow, and this was accompanied by reduced numbers of granulocytes and monocytes and peripheral blood. Elevated doses also decreased erythropoiesis. In contrast, continuous infusion of 14 micrograms/h for 19 days seemed to make the myelopoietic cells refractory to further action. A regulatory function of the pentapeptide is proposed.     

Modification of mouse hemopoietic cell proliferation in vivo by a hemoregulatory pentapeptide (HP 5b). Relation to circadian rhythms

The effects on murine hemopoietic cell proliferation of hemoregulatory peptide 5b, a synthetic factor which inhibits granulopoiesis, have been studied in vivo by 3H-thymidine labeling, cell cycle analyses by flow cytometry and total cell counts per femur. Single injections of the peptide seemed to obliterate the normal circadian rhythm of bone marrow cell proliferation. By autoradiography, the main effect was an inhibition of myelopoietic cell proliferation, although erythropoiesis was also affected. This occurred in two ways: a) an immediate effect observed in the first 24 h after a single injection, and b) a delayed effect observed 6-12 days after a week of peptide infusion which could be a result of stem cell inhibition. A secondary accumulation of cells with G2 phase DNA content was seen regularly. Thus the hemoregulatory peptide seems to influence hemopoietic cell proliferation and has its main effect on myelopoiesis. However, inhibition is less marked than observed previously in stem cells.     

Selectivity of hemoregulatory peptide (HP5b) action in culture

A synthetic analog of a hemoregulatory peptide associated with mature human granulocytes (HP5b) has been investigated for inhibitory effects on various cell types in culture as compared to inhibitory action on mouse and human myelopoietic colonies (CFU-gm), which occurs from 1 X 10(-13) to 1 X 10(-6) M in vitro. This includes colony formation by lymphoid T and B cells in capillary cultures, as well as mitogen activation of T, B and NK cells. At higher concentrations, i.e., above 1 X 10(-7) M, an inhibitory effect was found on colony formation. Neither the production of interleukin (IL) 3 by mitogen-activated T cells, nor the proliferation of the IL-3-dependent L/B cell line were affected by the peptide up to 1 X 10(-5) M. A slight inhibitory effect was found above 1 X 10(-9) M on mouse 3T3 fibroblasts. A series of malignant cell lines was also tested. No effect was seen between 1 X 10(-11) and 1 X 10(-7) M on human mammary carcinoma cells in culture. On Ehrlich ascites mouse mammary carcinoma cells a 30% inhibition was seen at 10(-6) M. On a human glioblastoma cell line (GaMg) no effect was seen, and on a rat glioma cell line (BT5C) an inhibitory effect was seen at 1 X 10(-7) M and above. No significant inhibition of cell growth was seen on SC1 mouse lymphoma cells from 1 X 10(-9) to 1 X 10(-5) M during 7 days of culture. The investigated normal and malignant cell types in culture were thus not inhibited in very low concentrations which act on CFU-gm. However, a variable inhibitory effect was found at higher concentrations where the inhibition of myelopoiesis was maximal and at concentrations where the inhibition is released. The hemoregulatory peptide thus seems to be a concentration-dependent selective inhibitor of myelopoiesis. The finding that various malignant cells do not respond at lower concentrations supports the possibility of using the peptide as a protector of normal cells during cancer chemotherapy.     

Effects of a murine mammary tumor on in vivo and in vitro hemopoiesis

The effects of an autologous transplanted mammary tumor (RIII-T3) on hemopoiesis in RIII mice are described. Tumor-bearing animals died 30 to 40 days after inoculation and displayed splenomegaly, extreme neutrophilia, and moderately increased monocyte levels in the spleen, peripheral blood, and bone marrow. The precursors of neutrophils and monocytes, granulocyte/macrophage colony-forming cells (GM-CFC) were elevated in the spleen, bone marrow, and peripheral blood. RIII-T3-conditioned medium stimulated bone marrow GM-CFC and caused the myelomonocytic cell line, WEHI-3B, to differentiate in vitro. The conditioned medium did not stimulate erythroid, megakaryocyte, or eosinophil colony formation. When conditioned medium was fractionated, two peaks of activity corresponding to GM-CSF and G-CSF were observed, suggesting that the extreme neutrophilia observed in tumor-bearing animals may result from chronic exposure of the hemopoietic system to these hemopoietic hormones.     

Modulation of diphthamide synthesis by 5'-deoxy-5'-methylthioadenosine in murine lymphoma cells

The histidine derivative diphthamide occurs uniquely in eukaryotic elongation factor 2 (EF-2), and is the specific target for the diphtheria toxin mono(ADP-ribosyl)transferase. The first step in diphthamide biosynthesis may involve the transfer of aminocarboxypropyl moiety from S-adenosylmethionine to the imidazole ring of histidine in EF-2, to yield 2-(3-carboxy-3-aminopropyl)histidine and 5'-deoxy-5'-methylthioadenosine (MeSAdo). As the possible nucleoside product of the initial reaction in the diphthamide biosynthetic pathway, MeSAdo could be an inhibitor of diphthamide formation. In the present experiments, we have analyzed the effects of MeSAdo on diphthamide synthesis in a MeSAdo phosphorylase-deficient mutant murine lymphoma cell line (R1.1, clone H3). As measured by susceptibility to diphtheria toxin-induced ADP-ribosylation, MeSAdo inhibited the formation of diphthamide in EF-2. The inhibition was not due to a nonspecific effect on protein synthesis. Indeed, exogenous MeSAdo substantially protected the lymphoma cells from the lethal effects of diphtheria toxin. These results suggest that MeSAdo can specifically modulate the biosynthesis of diphthamide in EF-2 in murine malignant lymphoma cells.     

Nonspecific activation of murine spleen cells in vitro by a synthetic immunoadjuvant (N-acetyl-muramyl-L-alanyl-D-isoglutamine)

We reported previously that synthetic N-acetyl-muramyl-l-alanyl-d-isoglutamine (MDP) displayed marked adjuvant activity but was devoid of mitogenicity in vitro. The data reported here establish that, under different cultural conditions, thymidine uptake and blast cells can be increased by MDP in spleen cells of DBA/2 and Balb/c mouse strains. Optimal responses were obtained on culture in a serum-free medium supplemented with 2-mercaptoethanol for 4 or 5 days. This effect was also obtained with spleen cells of Balb/c nude mice. When the synthetic MDP was compared to a natural water-soluble adjuvant (neo-WSA), extracted from Mycobacterium smegmatis cells, both were found to stimulate [³H] thymidine incorporation by mouse spleen cells. However, with the neo-WSA, the effect peaked on Day 2 and was weak or absent on Days 4 and 5. When the cells were cultured in a medium containing fetal calf serum, neo-WSA activation was completely abolished, while MDP-mediated stimulation was decreased.     

Modulation of the locomotion of polymorphonuclear leukocytes by a synthetic amphiphile, poly(ethyleneglycol) palmitate

To mimic in vitro the effect of biologically active amphipathic molecules on the locomotion of polymorphonuclear leukocytes (PMNL), the interaction and the consequences of the interaction between poly(ethyleneglycol) (PEG) esterified with palmitic acid (P-PEG) and PMNL, was studied. It was shown that P-PEG was more liable to hydrophobic interaction than PEG, and that P-PEG associated to a greater extent than PEG with PMNL. This association was inhibited by decreasing the interaction temperature from 37 to 4 °C, but it was insensitive to inhibitors of glycolysis. P-PEG decreased colchicine-facilitated capping by concanavalin A (ConA). P-PEG also decreased random locomotion of individual as well as population of PMNL. Neither cell viability nor the ability to respond by stimulated locomotion to an attractant was affected. The results indicate that P-PEG modulates PMNL locomotion by altering the membrane structure, e.g. by decreasing the lateral mobility of membrane constituents.     

Intramolecular transposition by a synthetic IS50 (Tn5) derivative.

We report the formation of deletions and inversions by intramolecular transposition of Tn5-derived mobile elements. The synthetic transposons used contained the IS50 O and I end segments and the transposase gene, a contraselectable gene encoding sucrose sensitivity (sacB), antibiotic resistance genes, and a plasmid replication origin. Both deletions and inversions were associated with loss of a 300-bp segment that is designated the vector because it is outside of the transposon. Deletions were severalfold more frequent than inversions, perhaps reflecting constraints on DNA twisting or abortive transposition. Restriction and DNA sequence analyses showed that both types of rearrangements extended from one transposon end to many different sites in target DNA. In the case of inversions, transposition generated 9-bp direct repeats of target sequences.     

Cytochrome b(5) is a major reductant in vivo of human indoleamine 2,3-dioxygenase expressed in yeast

The evolutionary relationship of indoleamine 2,3-dioxygenase (IDO) to some gastropod myoglobins suggests that IDO may undergo autoxidation in vivo such that one or more currently unidentified electron donors are required to maintain IDO heme iron in the active, ferrous state. To evaluate this hypothesis we have used yeast knockout mutants in combination with a recently developed yeast growth assay for IDO activity in vivo to demonstrate a role for cytochrome b(5) and cytochrome b(5) reductase in maintaining IDO activity in vivo.     

In vivo inhibition of TonB-dependent processes by a TonB box consensus pentapeptide.

The TonB box, a conserved pentapeptide sequence found in TonB-dependent colicins and receptors, is thought to interact physically with the TonB protein to facilitate TonB-dependent processes. Strains of Escherichia coli were treated in vivo with the synthetic TonB box pentapeptide Glu-Thr-Val-Ile-Val. The pentapeptide inhibited several TonB-dependent processes, including cell growth in low-iron medium, phi 80 infection, and killing by colicins B and Ia. Two unrelated control pentapeptides had no effect on TonB-dependent processes.     

Effective inhibition of K(b)- and D(b)-restricted antigen presentation in primary macrophages by murine cytomegalovirus

Macrophages play an important role in murine cytomegalovirus (MCMV) infection in vivo, both in disseminating infection and in harboring latent virus. MCMV encodes three immune evasion genes (m4, m6, and m152) that interfere with the ability of cytotoxic T cells (CTL) to detect virus-infected fibroblasts, but the efficacy of immune evasion in macrophages has been controversial. Here we show that MCMV immune evasion genes function in H-2(b) primary bone marrow macrophages (BMMphi) in the same way that they do in fibroblasts. Metabolic labeling experiments showed that class I is retained in the endoplasmic reticulum by MCMV infection and associates with m4/gp34 to a similar extent in fibroblasts and BMMphi. We tested a series of K(b)- and D(b)-restricted CTL clones specific for MCMV early genes against a panel of MCMV wild-type virus and mutants lacking m152, m4, or m6. MCMV immune evasion genes effectively inhibited antigen presentation. m152 appeared sufficient to abolish D(b)-restricted presentation in infected macrophages, as has been previously observed in infected fibroblasts. However, for inhibition of recognition of infected macrophages by K(b)-restricted CTL, m4, m6, and m152 were all required. The contribution of m4 to inhibition of recognition appeared much more important in macrophages than in fibroblasts. Thus, MCMV immune evasion genes function effectively in primary macrophages to prevent CTL recognition of early antigens and show the same pattern of major histocompatibility complex class I allele discrimination as is seen in fibroblasts. Furthermore, for inhibition of K(b)-restricted presentation, a strong synergistic effect was noted among m152, m4, and m6.     

In vivo formation of leukotriene E5 by murine peritoneal cells

Resident mouse peritoneal cells, stimulated in vivo with opsonized zymosan, produced leukotriene C4 and E4, with LTE4 being the major (80-90%) product. When mice were placed on diets containing increasing amounts of fish oil, four additional sulfidopeptide leukotrienes (SP-LT), LTC5, LTE5, 11-trans LTC5 and 11-trans LTE5, were identified. The identity of LTE5 was confirmed by spectrophotometric, chromatographic and enzymatic methods. When equivalent amounts of n-6 and n-3 polyunsaturated fatty acids (PUFA) were included in the diet, the stimulated peritoneal cells (in vivo) produced higher quantities of LTE5 (30.2 +/- 5.4 ng/10(6) cells) than LTE4 (22.8 +/- 7.3 ng/10(6) cells). In addition, in vitro studies demonstrated a 60% reduction in LTC4 (42.0 +/- 10.8 ng/10(6) cells to 16.7 +/- 6.2 ng/10(6) cells) and the appearance of LTC5 (2.1 +/- 0.9 ng/10(6) cells) in resident macrophages (stimulated with A23187) from mice maintained on a fish oil diet compared to mice fed the control diet. This study demonstrated that formation of the pentaenyl SP-LT in vivo, in particular LTE5, by peritoneal cells can significantly contribute to the endogenous SP-LT pool in response to an inflammatory stimulus following a dietary regimen containing fish oil.     

Modulation of a Recombinant Glycine Transporter (GLYT1b) by Activation of Protein Kinase C

Abstract: Treatment of human embryonic kidney cells (HEK 293 cells) expressing the mouse glycine transporter 1 (GLYT1b) with the protein kinase C (PKC) activator phorbol 12-myristate 13-acetate (PMA) decreased specific [³H]glycine uptake. This down-regulation resulted from a reduction of the maximal transport rate and was blocked by the PKC inhibitors 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H7) and staurosporine. The inhibitory effect of PMA treatment was also observed after removing all five predicted phosphorylation sites for PKC in GLYT1b by site-directed mutagenesis. These data indicate that glycine transport by GLYT1b is modulated by PKC activation; however, this regulation may involve indirect phosphorylation mechanisms.     

Splenic hemopoiesis of the platypus (Ornithorhynchus anatinus): evidence of primary hemopoiesis in the spleen of a primitive mammal

The generation of blood cells has been observed in the spleen and in the bone marrow of the platypus. Hemopoiesis was found to be far more active in the spleen than in the bone marrow judging by the number of proliferating hemopoietic elements within a unit area of tissue from each organ. Granulocytes, erythroblasts, and megakaryocytes, with the related immature forms for each cell line, were noted in the spleen. In contrast, there were very few examples of immature forms of these cell lines and a complete absence of mature megakaryocytes in the bone marrow. These findings suggest that the spleen is the primary hemopoietic organ in the platypus. Since the platypus is one of two species representing the most primitive existing mammals, it seems likely that the spleen may be the primary hemopoietic organ in mammalian evolution.     

Control of murine hair follicle regression (catagen) by TGF-beta1 in vivo.

The regression phase of the hair cycle (catagen) is an apoptosis-driven process accompanied by terminal differentiation, proteolysis, and matrix remodeling. As an inhibitor of keratinocyte proliferation and inductor of keratinocyte apoptosis, transforming growth factor beta1 (TGF-beta1) has been proposed to play an important role in catagen regulation. This is suggested, for example, by maximal expression of TGF-beta1 and its receptors during late anagen and the onset of catagen of the hair cycle. We examined the potential involvement of TGF-beta1 in catagen control. We compared the first spontaneous entry of hair follicles into catagen between TGF-beta1 null mice and age-matched wild-type littermates, and assessed the effects of TGF-beta1 injection on murine anagen hair follicles in vivo. At day 18 p.p., hair follicles in TGF-beta1 -/- mice were still in early catagen, whereas hair follicles of +/+ littermates had already entered the subsequent resting phase (telogen). TGF-beta1-/- mice displayed more Ki-67-positive cells and fewer apoptotic cells than comparable catagen follicles from +/+ mice. In contrast, injection of TGF-beta1 into the back skin of mice induced premature catagen development. In addition, the number of proliferating follicle keratinocytes was reduced and the number of TUNEL + cells was increased in the TGF-beta1-treated mice compared to controls. Double visualization of TGF-beta type II receptor (TGFRII) and TUNEL reactivity revealed colocalization of apoptotic nuclei and TGFRII in catagen follicles. These data strongly support that TGF-beta1 ranks among the elusive endogenous regulators of catagen induction in vivo, possibly via the inhibition of keratinocyte proliferation and induction of apoptosis. Thus, TGF-betaRII agonists and antagonists may provide useful therapeutic tools for human hair growth disorders based on premature or retarded catagen development (effluvium, alopecia, hirsutism).     

Modulation of KB and A431 cell adhesion by epidermal growth inhibitory pentapeptide.

A pentapaptide, pyroGlu-Glu-Asp-Ser-GlyOH (EPP), isolated from mouse epidermis, inhibits mitoses and enhances differentiation in primary cultures and in transformed mouse epidermal cells in vitro (Elgjo et al. 1986 b). The present work demonstrates that EPP also modulates the adhesiveness of two human tumour cell lines (KB and A431) of epidermal origin to uncoated plastic and to plastic coated with fibrinogen or collagen type 1. The adhesion modulatory effect of EPP was observed over a broad range of concentrations (10(-12)-10(-6) M), and depended on the substrate the cells were growing on. Thus, when cells were seeded on plastic or collagen, the attachment to the substrate was suppressed at the highest concentrations of EPP, and stimulated at the lowest ones. The opposite concentration-response pattern was observed when fibrinogen was used as substrate.