Lysosomotropic drugs inhibit maturation of transforming growth factor-beta

Transforming growth factor-beta (TGFbeta) is synthesized as a precursor protein, pro-TGFbeta, that must be cleaved by a furin-like proteinase before it becomes biologically active. We hypothesized that alkalinization of the trans-Golgi network (TGN)/endosome system may suppress pro-TGFbeta processing and decrease TGFbeta secretion. This hypothesis was tested in human A549 alveolar epithelial and T98G glioblastoma cell lines and in C57BL/6 mice. Inhibition of furin-like activity with decanoyl-RVKR chloromethylketone suppressed pro-TGFbeta processing, thereby significantly reducing the levels of secreted TGFbeta. Brefeldin A, bafilomycin A1, ammonium chloride, and monensin also prevented pro-TGFbeta processing. The alkalinizing lysosomotropic drugs chloroquine, hydroxychloroquine, amodiaquine, and azithromycin had a similar effect on the overall production of mature bioactive TGFbeta. Reduced levels of secreted TGFbeta were also associated with a decrease in Smad2 signaling. Mice treated with chloroquine showed a decrease in bronchoalveolar lavage fluid TGFbeta. We conclude that alkalinizing lysosomotropic drugs inhibit pro-TGFbeta processing.     

Interaction of transforming growth factor-beta 1 with alpha 2-macroglobulin. Role in transforming growth factor-beta 1 clearance.

It has been widely assumed that the interaction of transforming growth factor-beta 1 (TGF-beta 1) with its serum-binding protein, alpha 2-macroglobulin (alpha 2M), mediates the rapid clearance of TGF-beta 1 from the circulation. To test this, we have analyzed the effect of TGF-beta 1 binding on the conformational state of alpha 2M. Our results demonstrate that the binding of TGF-beta 1 to alpha 2M does not lead to the conformational change in the alpha 2M molecule that is required for the clearance of the alpha 2M.TGF-beta 1 complex via the alpha 2M receptor. Furthermore, endogenous TGF-beta 1 is associated with the conformationally unaltered slow clearance form of alpha 2M. Clearance studies in mice show that the half-life of 125I-TGF-beta 1 in the circulation (1.6 +/- 0.71 min) is not affected by blocking the alpha 2M receptor with excess conformationally altered alpha 2M. These results suggest that TGF-beta 1 is rapidly cleared from the circulation after injection by a pathway not involving alpha 2M.     

Stimulation of insulin secretion by transforming growth factor-beta

Effects of transforming growth factor-beta (TGF-beta) on insulin secretion were studied in rat pancreatic islets. When islets were incubated in a batch incubation system with various concentrations of TGF-beta in the presence of 2.8 mM glucose, TGF- beta increased insulin release in a concentration-dependent manner. Both TGF- beta 1 and TGF- beta 2 were equally effective. The stimulatory action of TGF- beta was greater in the presence of stimulatory concentration of glucose. In perifusion system, TGF- beta induced an immediate monotonic increase in insulin secretion. These results indicate that TGF- beta is a stimulator of insulin secretion.     

Interleukin-13 and transforming growth factor-beta1 inhibit spontaneous sleep in rabbits

Proinflammatory cytokines, including interleukin-1beta and tumor necrosis factor-alpha are involved in physiological sleep regulation. Interleukin (IL)-13 and transforming growth factor (TGF)-beta1 are anti-inflammatory cytokines that inhibit proinflammatory cytokines by several mechanisms. Therefore, we hypothesized that IL-13 and TGF-beta1 could attenuate sleep in rabbits. Three doses of IL-13 (8, 40, and 200 ng) and TGF-beta1 (40, 100, and 200 ng) were injected intracerebroventricularly 3 h after the beginning of the light period. In addition, one dose of IL-13 (200 ng) and one dose of TGF-beta1 (200 ng) were injected at dark onset. The two higher doses of IL-13 and the highest dose of TGF-beta1 significantly inhibited spontanenous non-rapid eye movement sleep (NREMS) when they were given in the light period. IL-13 also inhibited NREMS after dark onset administration; however, the inhibitory effect was less potent than that observed after light period administration. The 40-ng dose of IL-13 inhibited REMS duration during the dark period. TGF-beta1 administered at dark onset had no effect on sleep. These data provide additional evidence for the hypothesis that a brain cytokine network is involved in regulation of physiological sleep.     

Dominant negative mutants of ornithine decarboxylase.

Conserved lysines of mouse ornithine decarboxylase were individually mutated to arginines. The mutations at amino acid residues 69, 115, and 169 greatly reduced or abolished enzymatic activity. Lysine 69 is the site of Schiff base formation with the cofactor pyridoxal phosphate; the functional role of the other two lysines essential for activity is not known. Coexpression of wild type ornithine decarboxylase along with the lysine 115 to arginine mutant reduced the activity of the former without diminishing the amount of wild type protein. This form of negative complementation was seen when wild type and mutant protein were coexpressed either by in vitro translation or in bacteria. The data are consistent with the conclusion that a wild type and mutant subunit form a heterodimer that is enzymatically inactive.     

Adenoviral supply of active transforming growth factor-beta1 (TGF-beta1) did not prevent lethality in transforming growth factor-beta1-knockout embryos.

In TGF-beta1-knockout mice, TGF-beta1-null conceptuses die during embryonic development with a penetrance of lethality that depends on the mouse genetic background. Studies have suggested that transplacental passage of maternal TGF-beta1 could account for the rescue of some TGF-beta1-null embryos. Herein, we have used an adenovirus-based gene delivery system and a strain of mice where most TGF-beta1-null conceptuses die prior to parturition, to investigate whether an increase in maternal TGF-beta1 during pregnancy would rescue TGF-beta1-null embryos. A single intravenous injection of an adenovirus containing a modified version of TGF-beta1 cDNA (Ad-TGF-beta1S223/S225), coding for a biologically active form of the cytokine, induced a 20-fold increase in plasma TGF-beta1 (active and latent forms) levels for up to 3 months in adult mice. Similar levels of TGF-beta1 were detected in 13-day post co?tum (dpc) embryos from Ad-TGF-beta1-treated mothers, demonstrating an efficient maternal/fetal transfer of the cytokine. However, no increase in the frequencies of TGF-beta1-null neonates nor in day 11.5 dpc TGF-beta1-null conceptuses was observed despite elevated levels of TGF-beta1 delivered throughout gestation. In addition, we show that the high levels of TGF-beta1-titrated in the plasma from Ad-TGF-beta1S223/S225-treated mice were partly the consequence of a stimulation of an autocrine production by exogenous bioactive TGF-beta1. These results indicate that transplacental passage of TGF-beta1 was not effective in rescuing TGF-beta1-null conceptuses from embryonic lethality.     

Type I transforming growth factor-beta receptors on neutrophils mediate chemotaxis to transforming growth factor-beta.

Participation of human polymorphonuclear neutrophils in the inflammatory response is mediated, in part, by soluble factors such as chemotactic peptides and cytokines. Although the cytokine, transforming growth factor beta (TGF-beta), has been shown to recruit monocytes and promote the inflammatory process, its effects on neutrophils are unknown. In this investigation, [125I]TGF-beta 1 affinity binding studies were employed to show that neutrophils express TGF-beta receptors (350 +/- 20 receptors/cell), which exhibit high affinity for the ligand (dissociation constant, 50 pM). Affinity cross-linking studies identified the receptors to be primarily of the type I class. In contrast to the receptors on monocytes, neutrophil TGF-beta receptors were not down-regulated by exposure to specific inflammatory mediators. Additional studies examined whether exposure of neutrophils to TGF-beta could enhance specific functions, as occurs with monocytes. TGF-beta was shown to cause directed migration of neutrophils at femtomolar concentrations, thus it is the most potent neutrophil chemotactic factor yet identified. Neutrophil production of reactive oxygen intermediates was not stimulated by TGF-beta, nor did TGF-beta enhance or depress subsequent PMA- or FMLP-stimulated superoxide production. However, the stable expression of neutrophil TGF-beta receptors, and the capacity of this cytokine to stimulate neutrophil chemotaxis, suggest that the pro-inflammatory effects of TGF-beta are mediated by neutrophils in addition to monocytes.     

Genes for three different isoforms of transforming growth factor-beta are present in plaice (Pleuronectes platessa) DNA

Although transforming growth factor-beta (TGF-beta) genes have been described in several species of fish, whether an individual fish possesses more than one member of this multigene family has yet to be established. During this study, three DNA fragments were isolated from the plaice (Pleuronectes platessa) by homology cloning. Sequence analysis revealed that each fragment closely resembled a distinct member of the TGF-beta family. Each putative plaice TGF-beta clustered individually with a different TGF-beta subgroup during phylogenetic analysis suggesting that these may be the plaice homologues of vertebrate TGF-beta 1/4/5, -beta 2 or -beta 3. The first direct evidence for the presence of multiple TGF-beta genes in a single fish species is presented.     

Co-stimulation of T cell proliferation by transforming growth factor-beta 1.

Transforming growth factor-beta (TGF-beta) exhibits diverse regulatory roles in the immune system and has been described as a potent inhibitor of lymphocyte and hemopoietic progenitor cell growth. The present studies investigated the effects of TGF-beta 1 on murine T cell proliferation triggered through the T cell receptor/CD3 complex. In contrast to previously reported T cell growth inhibition, TGF-beta 1 costimulated splenic T cell proliferation in the presence of immobilized anti-CD3 antibody 2C11, with maximal effect at anti-CD3 concentration of 50 micrograms/ml. Although TGF-beta 1 induced a modest increase in IL-2R display, TGF-beta 1 co-stimulated proliferation was largely independent of IL-2 and/or IL-4. Anti-IL-2 and/or anti-IL-4 antibody did not significantly block the TGF-beta 1 co-stimulated T cell growth, and no IL-2 or IL-4 bioactivity was detected in TGF-beta 1 co-stimulated cultures. TGF-beta 1 did not enhance IL-2 mRNA expression beyond control levels. However, TGF-beta 1 co-stimulation caused an accelerated evolution of a memory or mature T cell population phenotype. Both CD4+ and CD8+ T cell subsets were significantly enriched for cells of the mature CD45RBloPgp-1hi phenotype, in comparison with T cells stimulated by anti-CD3 alone or with PMA, and CD8+ T cells predominated. These results thus provide initial evidence that TGF-beta 1 is capable of bifunctional T cell growth regulation, which occurs largely via an IL-2- and IL-4-independent pathway.     

Possible involvement of transforming growth factor-beta 1 and transforming growth factor-beta receptor type II during luteinization in the marmoset ovary

The expression of transforming growth factor-beta 1 (TGF-beta 1), and transforming growth factor-beta receptor type II (T beta R-II), were evaluated in periovulatory marmoset ovaries. Histochemical methods were used, in particular double-labelling techniques, in order to correlate growth factor/receptor expression with proliferation (Ki 67), apoptosis (TUNEL method) and luteinization (3 beta-hydroxysteroid dehydrogenase (3 beta-HSD)). The latter was used as a luteinization marker. Periovulatory ovaries are especially suited for studying all aspects since they typically consist of small non-luteinized follicles, large luteinizing follicles and corpora lutea accessoria (Clas), which have developed from large luteinizing follicles. TGF-beta 1 and T beta R-II expression was found in luteinizing theca cells of large periovulatory follicles and in all luteal cells of Clas. Non-luteinized theca cells, including those of small follicles were always devoid of any immunostaining. Granulosa cells of small follicles were immunopositive for T beta R-II. Large follicles with granulosa cell immunoreactivity of both antibodies coexisted with non-reactive follicles of comparable size. The highest activity of the luteal marker enzyme 3 beta-HSD was co-localized in the same cells that expressed TGF-beta 1 and T beta R-II. The double-labelling experiments revealed that TGF-beta 1 and T beta R-II expression is not correlated with proliferation or apoptosis of follicular cells. Our results indicate that TGF-beta 1 and T beta R-II participate in differentiation processes, i.e. luteinization, rather than proliferation. In particular, the dynamics of T beta R-II expression appear highly related to the process of luteinization.     

FKBP12 is a negative regulator of transforming growth factor-beta receptor internalization

Transforming growth factor-beta (TGF-beta) family polypeptides regulate cell growth and differentiation by binding to single pass serine/threonine kinases referred to as TGF-beta type I and II receptors. Although interaction screens have shown that the immunophilin FKBP12 interacts with TGF-beta type I receptors, the role of FKBP12 in TGF-beta receptor action is presently unclear. Using a chimeric TGF-beta receptor system, we have shown a specific enhancement of internalization when FKBP12 binding to the type I receptor was prevented with rapamycin. Moreover, although earlier studies demonstrated that type II receptor kinase activity was required for optimal internalization in mesenchymal cells, we found that rapamycin functioned downstream of the type II receptor kinase. Thus, rather than modulating TGF-beta signaling, our data suggest a novel role for FKBP12 as a negative regulator of TGF-beta receptor endocytosis.     

Hyaluronan regulates transforming growth factor-beta1 receptor compartmentalization

Transforming growth factor-beta1 (TGF-beta1) is a key cytokine involved in the pathogenesis of fibrosis in many organs. We previously demonstrated in renal proximal tubular cells that the engagement of the extracellular polysaccharide hyaluronan with its receptor CD44 attenuated TGF-beta1 signaling. In the current study we examined the potential mechanism by which the interaction between hyaluronan (HA) and CD44 regulates TGF-beta receptor function. Affinity labeling of TGF-beta receptors demonstrated that in the unstimulated cells the majority of the receptor partitioned into EEA-1-associated non-lipid raft-associated membrane pools. In the presence of exogenous HA, the majority of the receptors partitioned into caveolin-1 lipid raft-associated pools. TGF-beta1 increased the association of activated/phosphorylated Smad proteins with EEA-1, consistent with activation of TGF-beta1 signaling following endosomal internalization. Following addition of HA, caveolin-1 associated with the inhibitory Smad protein Smad7, consistent with the raft pools mediating receptor turnover, which was facilitated by HA. Antagonism of TGF-beta1-dependent Smad signaling and the effect of HA on TGF-beta receptor associations were inhibited by depletion of membrane cholesterol using nystatin and augmented by inhibition of endocytosis. The effect of HA on TGF-beta receptor trafficking was inhibited by inhibition of HA-CD44 interactions, using blocking antibody to CD44 or inhibition of MAP kinase activation. In conclusion, we have proposed a model by which HA engagement of CD44 leads to MAP kinase-dependent increased trafficking of TGF-beta receptors to lipid raft-associated pools, which facilitates increased receptor turnover and attenuation of TGF-beta1-dependent alteration in proximal tubular cell function.     

Suppressors of transforming growth factor-beta pathway mutants in the Caenorhabditis elegans dauer formation pathway

The dauer is a developmentally arrested alternative third larval stage of Caenorhabditis elegans. Entry into this state is regulated by environmental cues, including temperature, food, and the concentration of constitutively secreted dauer pheromone. Genetically, three parallel pathways have been found that regulate this process. Of these, the group 2 pathway, which includes the genes daf-1, daf-3, daf-4, daf-5, daf-7, daf-8, and daf-14, mediates the transduction of environmental signals through the ASI chemosensory neuron and encodes a TGF-beta-related signaling pathway. To identify additional genes that function in this pathway, we carried out a screen for suppressors of mutations in daf-1, daf-8, and daf-14. From the total of 36 mutations, seven complementation groups were identified. Three complementation groups correspond to the previously described genes daf-3, daf-5, and daf-12. Three correspond to novel genes scd-1, scd-2, and scd-3. Genetic analysis of these scd genes is presented here. A fourth complementation group was represented by a single mutation sa315, which affects the daf-2/age-1 insulin-related signaling pathway.