Cytokines in the tumor necrosis factor (TNF) family regulate development and function of the immune system. We have isolated a new member of this family, designated Apo-2 ligand (Apo-2L), via an expressed sequence tag. Apo-2L is a 281-amino acid protein, related most closely to Fas/Apo-1 ligand. Transfected Apo-2L is expressed at the cell surface with its C terminus exposed, indicating a type II transmembrane protein topology. Like Fas/Apo-1 ligand and TNF, the C-terminal extracellular region of Apo-2L (amino acids 114 -281) exhibits a homotrimeric subunit structure. Soluble Apo-2L induces extensive apoptosis in lymphoid as well as non-lymphoid tumor cell lines. The effect of Apo-2L is not inhibited by soluble Fas/Apo-1 and TNF receptors; moreover, expression of human Fas/Apo-1 in mouse fibroblasts, which confers sensitivity to induction of apoptosis by agonistic anti-Fas/Apo-1 antibody, does not confer sensitivity to Apo-2L. Hence, Apo-2L acts via a receptor which is distinct from Fas/Apo-1 and TNF receptors. These results suggest that, along with other family members such as Fas/Apo-1 ligand and TNF, Apo-2L may serve as an extracellular signal that triggers programmed cell death. TNF1 family cytokines modulate host defense mechanisms via a corresponding family of receptors (1-3). Most TNF family cytokines are expressed as type II transmembrane proteins, whose C-terminal extracellular domain is processed proteolytically to form a soluble homotrimeric molecule. In contrast, the members of the TNF receptor (TNFR) family are type I transmembrane proteins. In both families, sequence homology is found mainly in the extracellular regions, which mediate ligand-receptor binding.Members of the TNF family have diverse biological actions, including T cell co-stimulation, induction of B cell proliferation and differentiation, and macrophage activation (1-3). In addition, certain TNF family members regulate the elimination of unwanted immune cells by inducing programmed cell death (apoptosis). For example, Fas/Apo-1 ligand (Fas/Apo-1L) plays a key role in peripheral deletion of self-reactive lymphocytes, as suggested by the autoimmune phenotype of the mouse mutations lpr and gld, which occur, respectively, in the Fas/Apo-1 receptor or ligand genes (4, 5). In addition, Fas/Apo-1L is involved in apoptosis of B cells and CD4 ϩ T cells subsequent to stimulation by antigen, while TNF mediates a similar function in CD8ϩ T cells (4 -7). In this article, we describe a new member of the TNF cytokine family. We have designated this protein Apo-2L, because it resembles the Fas/Apo-1L in its amino acid sequence, as well as in its ability to induce apoptosis. Apo-2L appears to act via a receptor which is distinct from Fas/Apo-1 and TNF receptors, suggesting that its biological role is unique. EXPERIMENTAL PROCEDURESCloning of Apo-2L cDNA-To isolate a full-length cDNA that contains the sequence of expressed sequenced tag (EST) HHEA47M, a gt11 bacteriophage library of human placental cDNA (ϳ1 ϫ 10 6 clones) (HL1075b, Clontech) was screene...
Activins, Inhibins, and Follistatins: Further Thoughts on a Growing Family of Regulators
Inhibin, a feedback inhibitor of pituitary FSH secretion, and its homodimer, activin, have been the subject of a growing body of literature in the last 5 years. These factors play a role not only in endocrine feedback in the reproductive system but also in paracrine and autocrine regulation of both reproductive and nonreproductive organs, including the liver, kidney, and brain. Additionally, the messages coding for both subunits and their receptors are exquisitely regulated, both spatially and temporally, during embryonic development. The cloning of a family of activin receptors; the development of specific immunoassays for inhibins A and B, and activins A and B; the description of alpha subunit, beta subunit, and receptor loss of function transgenic mouse models; and the cloning of two new beta subunit homologs have increased our understanding of the possible roles this complex family of proteins plays in development and endocrine function. This review largely confines itself to the roles of inhibins and activins in the male and female reproductive system, and is intended as an update to a 1992 review published in this journal.
The lytic peptides, cecropins, were originally isolated from the haemolymph of the giant silk moth, Hyalophora cecropia and possess antibacterial and anticancer activity in vitro. This study investigated the antimicrobial activity of these peptides against human pathogens using standardised assay techniques, and the activity of cecropin B on outer and inner bacterial membranes. From a panel of 15 organisms, Gram-negative bacteria were generally more sensitive to cecropins than Gram-positive organisms, especially the lipopolysaccharide defective mutant, Escherichia coli BUE55. Cecropins B and P1 shared similar MIC values whereas Shiva-1, a cecropin B analogue, was less active. Through combination studies with hydrophobic antibiotics and electron microscopy, cecropin B was shown to disrupt the bacterial outer membrane. Protoplasts of Staphylococcus aureus and Staphylococcus epidermidis were resistant to cecropin B, suggesting that the cytoplasmic membranes of Gram-positive organisms were inherently more resistant to the peptide.
The mechanism of androgen action on bone was studied in male mice with the AR deleted in mature osteoblasts. These mice had decreased trabecular bone volume associated with a decrease in trabecular number, suggesting that androgens may act directly on osteoblasts to maintain trabecular bone.Introduction: Androgens modulate bone cell activity and are important for the maintenance of bone mass. However, the mechanisms by which they exert these actions on bone remain poorly defined. The aim of this study was to investigate the role of androgens acting through the classical androgen receptor (AR) signaling pathways (i.e., DNA-binding dependent pathways) in osteoblasts using male mice in which exon 3 of the AR gene was deleted specifically in mature osteoblasts. Materials and Methods: Mice with a floxed exon 3 of the AR gene were bred with Col 2.3-cre transgenic mice, in which Cre recombinase is expressed in mineralizing osteoblasts. The skeletal phenotype of mutant mice was assessed by histomorphometry and quantitative CT at 6, 12, and 32 weeks of age (n ס 8 per group). Wildtype, hemizygous exon 3 floxed and hemizygous Col 2.3-cre male littermates were used as controls. Data were analyzed by one-way ANOVA and Tukey's posthoc test. Results: CT analysis of the fifth lumbar vertebral body showed that these mice had reduced trabecular bone volume (p < 0.05) at 32 weeks of age compared with controls. This was associated with a decrease in trabecular number (p < 0.01) at 12 and 32 weeks of age, suggesting increased bone resorption. These effects were accompanied by a reduction in connectivity density (p < 0.01) and an increase in trabecular separation (p < 0.01). A similar pattern of trabecular bone loss was observed in the distal femoral metaphysis at 32 weeks of age. Conclusions: These findings show that inactivation of the DNA binding-dependent functions of the AR, specifically in mature osteoblasts in male mice, results in increased bone resorption and decreased structural integrity of the bone, leading to a reduction in trabecular bone volume at 32 weeks of age. These data provide evidence of a role for androgens in the maintenance of trabecular bone volume directly through DNA binding-dependent actions of the AR in mature osteoblasts.
Androgens play a key role in skeletal growth and bone maintenance; however, their mechanism of action remains unclear. To address this, we selectively deleted the androgen receptor (AR) in terminally differentiated, mineralizing osteoblasts using the Cre/loxP system in mice (osteocalcin-Cre AR knockouts [mOBL-ARKOs]). Male mOBL-ARKOs had decreased femoral trabecular bone volume compared with littermate controls because of a reduction in trabecular number at 6, 12, and 24 wk of age, indicative of increased bone resorption. The effects of AR inactivation in mineralizing osteoblasts was most marked in the young mutant mice at 6 wk of age when rates of bone turnover are high, with a 35% reduction in trabecular bone volume, decreased cortical thickness, and abnormalities in the mineralization of bone matrix, characterized by increased unmineralized bone matrix and a decrease in the amount of mineralizing surface. This impairment in bone architecture in the mOBL-ARKOs persisted throughout adulthood despite an unexpected compensatory increase in osteoblast activity. Our findings show that androgens act through the AR in mineralizing osteoblasts to maintain bone by regulating bone resorption and the coordination of bone matrix synthesis and mineralization, and that this action is most important during times of bone accrual and high rates of bone remodeling.
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