Cardiokines as Modulators of Stress-Induced Cardiac Disorders.

Almost 30 years ago, the protein, atrial natriuretic peptide, was identified as a heart-secreted hormone that provides a peripheral signal from the myocardium that communicates to the rest of the organism to modify blood pressure and volume under conditions of heart failure. Since then, additional peripheral factors secreted by the heart, termed cardiokines, have been identified and shown to coordinate this interorgan cross talk. In addition to this interorgan communication, cardiokines also act in an autocrine/paracrine manner to play a role in intercellular communication within the myocardium. This review focuses on the roles of newly emerging cardiokines that are mainly increased in stress-induced cardiac diseases. The potential of these cardiokines as clinical biomarkers for diagnosis and prognosis of cardiac disorders is also discussed.

Computational designing of a poly-epitope fecundity vaccine for multiple species of livestock.

Inhibin and follistatin are known to reduce fecundity by inhibiting the actions of activin and FSH. Thus, the immunoneutralization of these hormones is a rational proposal for augmenting reproductive performance. The present study describes a comprehensive computational methodology comprising of a consensus approach of several B- and Th-cell epitope prediction tools for the identification of epitopic regions within the structure of these hormones that can be incorporated into a poly-epitope fecundity vaccine. The proposed peptide (RGD-WSPAALRLLQRPPEEPA-KK-YSFPISSILE) should be effective in multiple animal species, generating good immunological memory.

The activin A antagonist follistatin inhibits asthmatic airway remodelling.

BACKGROUND: Current pharmacotherapy is highly effective in the clinical management of the majority of patients with stable asthma, however severe asthma remains inadequately treated. Prevention of airway remodelling is a major unmet clinical need in the management of patients with chronic severe asthma and other inflammatory lung diseases. Accumulating evidence convincingly demonstrates that activin A, a member of the transforming growth factor (TGF)-ß superfamily, is a key driver of airway inflammation, but its role in chronic asthmatic airway remodelling is ill-defined. Follistatin, an endogenously produced protein, binds activin A with high affinity and inhibits its bioactivity. The aim of this study was to test the potential of follistatin as a therapeutic agent to inhibit airway remodelling in an experimental model of chronic allergic airway inflammation. METHODS: BALB/c mice were systemically sensitised with ovalbumin (OVA), and challenged with OVA intranasally three times a week for 10 weeks. Follistatin was instilled intranasally during allergen challenge. RESULTS: Chronic allergen challenge induced mucus hypersecretion and subepithelial collagen deposition which persisted after cessation of challenge. Intranasal follistatin (0.05, 0.5, 5 µg) inhibited the airway remodelling and dose-dependently decreased airway activin A and TGF-ß1, and allergen-specific T helper 2 cytokine production in the lung-draining lymph nodes. Follistatin also impaired the loss of TGF-ß1 and activin RIB immunostaining in airway epithelium which occurred following chronic allergen challenge. CONCLUSIONS: These data demonstrate that follistatin attenuates asthmatic airway remodelling. Our findings point to the potential of follistatin as a therapeutic for prevention of airway remodelling in asthma and other inflammatory lung diseases.

Single-microchannel, multistep assay reports protein size and immunoaffinity.

We introduce a fully integrated multistep protein assay that reports both protein identity and size. To report these two properties, a microfluidic design strategy integrates pore limit electrophoresis (PLE) with a heterogeneous immunoassay in a single microchannel (PLE-IA). PLE-IA was applied in a study of follistatin, a 31.5 kDa glycoprotein regulating mammalian cell proliferation and differentiation. In a single-channel multistage assay approach, an antibody to follistatin was first immobilized in a polyacrylamide PLE gradient gel, near the origin of the separation axis. Immobilization relies on pore-limit exclusion of the antibody and not on chemical functionalization of either the sieving matrix or the antibody, making assay customization by an end-user straightforward. Subsequently, target and ladder protein species were electrophoretically introduced into the antibody-patterned PLE channel. Species having an affinity for the immobilized antibody were detected via heterogeneous immunoassay. Noninteracting and, thus, unbound species electromigrated past the patterned antibodies, along the separation axis, and finally separated according to the pore-size limit of each, yielding a log-linear dependence of molecular weight on migration distance. Separations of 10 min yielded an average peak capacity of 18 ± 1.3 (separation resolution (SR) = 1) in a 10 mm separation distance. Comparison of the separated peaks in two parallel PLE channels in the presence or absence of capture antibody with a protein size ladder revealed good agreement of the target molecular weight with reported values. In addition, a more than 50-fold decrease in the detection limit (0.078 vs 5 nM) was achieved using an electrophoretic "continuous injection" technique in which sample material was continuously loaded for 40 min. On the basis of this proof-of-principle demonstration with follistatin, PLE-IA should find application in study of cell signaling, including questions related to aging and regeneration.

Immunisation against inhibin enhances follicular development, oocyte maturation and superovulatory response in water buffaloes.

This study was carried out to test the feasibility of enhancing embryo production in vivo and in vitro by immunoneutralisation against inhibin or follistatin. In Experiment 1, multi-parity buffaloes were assigned into three groups: High group (n=8), which received one primary (2mg) and two booster (1mg) vaccinations (28-day intervals) with a recombinant inhibin α subunit in 1 mL of white oil adjuvant; Low group (n=8), which received half that dose; and Control group (n=7), which received only adjuvant. Immunisation against inhibin stimulated development of ovarian follicles. Following superovulation and artificial insemination, inhibin-immunised buffaloes had more developing follicles than the Control buffaloes. The average number of embryos and unfertilised ova (4.5±0.6, n=6) in the High group was higher (P<0.05) than in the Control group (2.8±0.6, n=5) and was intermediate (4.1±0.7, n=7) in the Low group. The pooled number of transferable embryos of the High and Low groups (3.2±0.5, n=13) was also higher (P<0.05) than that (1.6±0.7, n=5) of the controls. The immunised groups also had higher plasma concentrations of activin, oestradiol and progesterone. In Experiment 2, the addition of anti-inhibin or anti-follistatin antibodies into buffalo oocyte IVM maturation medium significantly improved oocyte maturation and cleavage rates following parthenogenic activation. Treatment with anti-follistatin antibody also doubled the blastocyst yield from activated embryos. These results demonstrated that immunisation against inhibin stimulated follicular development, enhanced oocyte quality and maturation competence, yielded more and better embryos both in vivo and in vitro.

Role of activin in bacterial infections: a potential target for immunointervention?

Severe bacterial infections such as sepsis and meningitis still kill or severely injure people despite the use of bactericidal antibiotics. Therefore, new strategies for a better therapy are needed. Activin A, a member of the TGF-ß superfamily and its binding protein follistatin (FS) are released by various cell types during acute and chronic inflammatory processes. Until now, a clear definition of conditions in which activin A exerts either its pro- or anti-inflammatory functions is lacking. The activin/FS-system participates in the fine-tuning of the host's inflammatory response upon infectious stimuli. This response is on the one hand necessary for fighting pathogens, but on the other hand can negatively affect the host. This article focuses on the role of activin A and FS in infection and after acute inflammatory stimuli. The therapeutic potentials of blocking or promoting activin actions are discussed.

Analysis of the effects of androgens and training on myostatin propeptide and follistatin concentrations in blood and skeletal muscle using highly sensitive immuno PCR.

Myostatin propeptide (MYOPRO) and follistatin (FOLLI) are potent myostatin inhibitors. In this study we analysed effects of training and androgens on MYOPRO and FOLLI concentrations in blood and skeletal muscle using Immuno PCR. Young healthy males performed either a 3-month endurance training or a strength training. Blood and biopsy samples were analysed. Training did not significantly affect MYOPRO and FOLLI concentrations in serum and muscle. To investigate whether total skeletal muscle mass may affect circulating MYOPRO and FOLLI levels, blood samples of tetraplegic patients, untrained volunteers and bodybuilders were analysed. MYOPRO was significantly increased exclusively in the bodybuilder group. In orchiectomised rats MYOPRO increased in blood and muscle after treatment with testosterone. In summary our data demonstrate that moderate training does not affect the concentrations of MYOPRO to FOLLI. In contrast androgen treatment results in a significant increase of MYOPRO in skeletal muscle and serum.

Activin and transforming growth factor-beta signaling pathways are activated after allergen challenge in mild asthma.

BACKGROUND: Both transforming growth factor (TGF)-beta(1) and activin-A have been implicated in airway remodeling in asthma, but the modulation of their specific signaling pathways after disease activation remains undefined. OBJECTIVE: To define the expression kinetics of TGF-beta(1), activin-A ligands, and follistatin (a natural activin inhibitor), their type I and type II receptors (activin-like kinase[ALK]-1, ALK-5, ALK-4, TbetaRII, and ActRIIA/RIIB) and activation of signaling (via phosphorylated (p) Smad2), in the asthmatic airway after allergen challenge. METHODS: Immunohistochemistry was performed on bronchial biopsies from 15 mild atopic patients with asthma (median age, 25 years; median FEV(1)% predicted, 97%) at baseline and 24 hours after allergen inhalation. Functional effects of activin-A were evaluated by using cultured normal human bronchial epithelial (NHBE) cells. RESULTS: pSmad2(+) epithelial cells increased at 24 hours (P = .03), and pSmad2 was detected in submucosal cells. No modulation of activin-A, follistatin, or TGF-beta(1) expression was demonstrated. Activin receptor(+) cells increased after allergen challenge: ALK-4 in epithelium (P = .04) and submucosa (P = .04), and ActRIIA in epithelium (P = .01). The TGF-beta receptor ALK-5 expression was minimal in the submucosa at baseline and after challenge and was downregulated in the epithelium after challenge (P = .02), whereas ALK-1 and TbetaRII expression in the submucosa increased after allergen challenge (P = .03 and P = .004, respectively). ALK-1 and ALK-4 expression by T cells was increased after allergen challenge. Activin-A induced NHBE cell proliferation, was produced by NHBE cells in response to TNF-alpha, and downregulated TNF-alpha and IL-13-induced chemokine production by NHBE cells. CONCLUSION: Both TGF-beta and activin signaling pathways are activated on allergen provocation in asthma. Activin-A may contribute to resolution of inflammation.

The relationship between immunosuppressive activity and immunoregulatory cytokines in seminal plasma: influence of sperm autoimmunity and seminal leukocytes.

While the contributions of prostasomes, polyamines and prostaglandins to the immunosuppressive activity (ISA) of human seminal plasma have been well-characterised, the contribution of immunoregulatory cytokines found in seminal plasma has received relatively little attention. Semen samples were collected from adult men displaying normospermic parameters, sperm antibodies or substantially elevated seminal leukocytes. Samples were processed through ultracentrifugation and dialysis (<3500Da) to remove prostasomes, polyamines and prostaglandins, and then assayed for ISA by an in vitro T lymphocyte inhibition assay, as well as by specific immunoassays for transforming growth factor beta(1) (TGFbeta(1)), interleukin-10 (IL-10), activin A and the activin-binding protein, follistatin. Seminal plasma from all groups retained substantial ISA following processing. Compared with normospermic men, this 'large' molecular weight ISA fraction was significantly increased in a subset of men with sperm antibodies, but was not altered in the group with elevated leukocytes. There was no relationship between ISA and any cytokine examined, and only TGFbeta(1) was present at levels sufficient to contribute to ISA. Inhibition with a TGFbeta-specific antibody reduced ISA in seminal plasma by approximately 50%. Across all patients, TGFbeta(1) levels were positively correlated with sperm numbers in the ejaculate and with activin A, but not with follistatin or IL-10. Activin A and IL-10 also displayed a positive relationship, and elevated leukocytes was associated with a significant elevation of IL-10 and activin A, but not TGFbeta(1). It is concluded that 'large' molecular weight molecules, the most important of which appears to be TGFbeta(1), make a significant contribution to immunosuppression by human seminal plasma.

Differential distribution of follistatin isoforms: application of a new FS315-specific immunoassay.

Follistatin (FST) is a monomeric activin-binding and neutralization protein that has at least three isoforms in human tissues and fluids. The full-length FS315 protein has an acidic 26-residue C-terminal tail that is not present in the shortest form, FS288, due to alternative splicing. An intermediate form, FS303, was identified in follicular fluid that is presumably derived by proteolytic processing of this tail domain. Interestingly, the biochemistry of each of these three isoforms is distinct, including their ability to bind to cell surface proteoglycans, an activity that ranks in the order FS288 > FS303 > FS315. This would suggest that the soluble, circulating FST isoform is likely to be FS315, a hypothesis supported by previous determinations that the serum and follicular fluid forms of FST are biochemically distinct. To test this hypothesis, we developed an immunoassay that is specific for full-length FS315. This assay was validated for use with human serum and follicular fluid samples and then used to examine FST in these fluid compartments. Our results indicate that FS315 is indeed the major circulating FST isoform but is undetectable in follicular fluid samples aspirated from normal women or women with polycystic ovary syndrome. These observations confirm the compartmentalization of FST isoforms according to their biochemical properties and biological actions so that the most soluble form is found in the circulation, whereas the forms that bind to cell surface proteoglycans are found in tissue compartments such as the ovarian follicle. They also confirm that the source of FST in human serum is not the ovarian follicle.

Follistatin restricts bone morphogenetic protein (BMP)-2 action on the differentiation of osteoblasts in fetal rat mandibular cells.

UNLABELLED: We tested whether FS secretion might modulate BMP-2 actions by measuring FS levels and counting bone numbers of rat mandibular cells. In the presence of Dex, BMP-2 stimulated FS secretion at the early phase and augmented bone nodule by neutralizing with FS antibody. We concluded that BMP-2 facilitates FS secretion, and the FS restricts BMP-2 action on osteoblastogenesis. INTRODUCTION: Bone morphogenetic proteins (BMPs) promote the differentiation of osteoprogenitor cells into osteoblasts. Activin A is involved in the regulation of bone formation. Follistatin (FS) antagonizes the bioactivities of BMP and activin A extracellularly. MATERIALS AND METHODS: In this study, we tested whether the induction of FS secretion might modulate the effects of BMP-2 on osteoblast development, using the bone nodule-forming cultures of fetal rat mandibular cells. RESULTS AND CONCLUSIONS: In the presence of dexamethasone (Dex), BMP-2 stimulated the secretion of FS at the early phase (days 3-9) of the culture. Dex alone had no effect, and BMP-2 alone was less effective than the combination of the two. BMP-4 and -6 had little effect on FS secretion. Activin A inhibited the early upregulation of FS secretion when added with BMP-2 and Dex. In the presence of Dex, BMP-2 increased bone nodule numbers when added to early cultures. The addition of anti-FS antibody to cultures with BMP-2 and Dex augmented bone nodule formation. These results show that BMP-2 facilitates the secretion of FS in the presence of Dex, and the increased FS secretion restricts the action of BMP-2 on osteoblast differentiation.

[Novel autoantibodies and their target antigens in rheumatoid arthritis].

Recently identified autoantibodies in rheumatoid arthritis are targeting autoantigen molecules, such as calpastatin, a novel form of soluble gp130, and follistatin-related protein, that appear to play a role in protecting effects in joint inflammation. These autoantibodies inhibit the function of target molecules and may be involved in the pathogenic mechanisms by upregulating inflammation and joint destruction. Another autoantibody targets filaggrin, a citullurinated protein distributed in keratinated epithelia. Although the pathogenic effect of anti-filaggrin antibody is not elucidated, this autoantibody has a potentiality of a new diagnostic marker of RA because of its high sensitivity and specificity.