Evaluation of the human basophil degranulation test using the commercially available Baso-kit as a test of immediate-type hypersensitivity in hay-fever sufferers

The basophil degranulation test (BDT) has failed to gain popular acceptance as a test of immediate-type hypersensitivity since its introduction in clinical medicine in 1961. Recent modification of this technique, however, seemed to have increased its reliability. We have studied a group of twenty-five hay-fever sufferers and a similar age- and sex-matched group of healthy controls to compare the sensitivity of a newly available commercial BDT kit (Baso-kit, Laboratoire des Stallergenes) with specific serum IgE levels and skin-prick tests to meadow-grass pollen. A quantitative correlation was found between the positive BDT (greater than 30% degranulation) and the skin tests, whereas only a qualitative relationship was obtained with specific IgE concentrations. The BDT also identified two subpopulations of responders and non-responders among a third group of hay-fever subjects who had previously been hyposensitized to mixed grass pollen. We conclude that the modified BDT provides a worthwhile addition to the in vitro testing of immediate-type hypersensitivity states.     

Evaluation of five commercial enzyme immunoassays for the detection of human cytomegalovirus-specific IgM antibodies in the absence of a commercially available gold standard.

In the recent years the number of commercially available immunoassays for the detection of human cytomegalovirus (HCMV)-specific immunoglobulin M (IgM) antibodies has rapidly increased. The aim of the present study was to evaluate five commercial immunoassays for the serological diagnosis of HCMV-infection. These methods, namely the IMx CMV IgM assay, the AxSYM CMV IgM assay (both Abbott), the Gull CMV IgM, the CMV-IgM-ELA test PCS Medac and the Biotest Anti-HCMV recombinant IgM ELISA, were compared for their diagnostic effectiveness and interference with substances eventually producing cross-reactions with HCMV-IgM (Epstein-Barr-virus (EBV)-IgM, rheumatoid factor (RF)). In addition, repeated measurements on samples from kidney and heart transplant recipients with active HCMV infection were examined to compare the temporal development of the HCMV-IgM measured with the five assay systems. Since there is no commercially available gold standard, it was assumed that the true classification, of whether the patient sample is HCMV-IgM positive or negative, was unknown. Hence sensitivity and specificity were assessed based on a maximum likelihood approach using a "latent class" model. The cross-reactions were quantified by a Bayesian statistical model using prior information for the expected prevalences in the EBV-IgM and rheumatoid factor sample groups. The results of the study demonstrated that there are great differences in sensitivity and specificity as well as in cross-reactions with EBV-IgM and RF between the tested ELISAs.     

Hydrolysis of a water-insoluble substrate incorporated into solidified medium by the enzyme α-amylase contained in normal human blood,serum and plasma

Water-insoluble synthetic blue starch polymer incorporated into solidified agar medium was shown to be broken down by enzyme α-amylase present in human blood, serum and plasma. The hydrolysis was effected by the α-amylase as it diffused through the agar-blue starch polymer medium. The dependence of the size of the area in which hydrolysis had occurred on time, temperature of incubation and the serial dilution of the samples was studied. This unique technique is the only technique known which presents the measurement of α-amylase activity in whole blood. This fact together with the simplicity of this method makes the technique ideally suited for bed-side testing and for assaying a-amylase in emergence cases.     

Synergistic induction of TRAIL-mediated apoptosis by anisomycin in human hepatoma cells via the BH3-only protein Bid and c-Jun/AP-1 signaling pathway

Tumor necrosis factor (TNF)-related apoptosis-inducing ligand (TRAIL) is a member of the TNF super-family, and it has been shown that many human cancer cell lines are refractory to TRAIL-induced cell death. However, the molecular mechanisms underlying resistance are unclear. In the present study, we show that TRAIL-resistance is reversed in human hepatoma cells by anisomycin, which is known to inhibit protein synthesis and induce ribotoxic stress. Synergistic induction of apoptosis in cells treated with anisomycin plus TRAIL was associated with activation of caspases and cleavage of Bid, a pro-apoptotic BH3-only protein. Silencing of Bid expression by small interfering RNA (siRNA) significantly attenuated the loss of mitochondrial membrane potential (MMP, Δψ_m) and significantly increased induction of apoptosis in cells treated with anisomycin and TRAIL, confirming that Bid cleavage is required for the response. In addition, c-Jun/AP-1 was rapidly activated upon stimulation with anisomycin; however, the knockdown of c-Jun/AP-1 expression by c-Jun siRNA markedly reduced anisomycin plus TRAIL-induced loss of MMP and apoptosis. Taken together, the findings show that anisomycin sensitizes TRAIL-mediated hepatoma cell apoptosis via the mitochondria-associated pathway, involving the cleavage of Bid and activation of the c-Jun/AP-1 pathway, indicating that this compound can be used as an anti-tumor agent in combination with TRAIL.     

Activation of nonsteroidal anti-inflammatory drug-activated gene-1 via extracellular signal-regulated kinase 1/2 mitogen-activated protein kinase revealed a isochaihulactone-triggered apoptotic pathway in human lung cancer A549 cells

The novel lignan isochaihulactone inhibits cell proliferation and is an effective inducer of apoptosis in a variety of carcinoma cell lines. To determine the mechanisms underlying these effects, we examined isochaihulactone-induced changes in gene expression using oligodeoxynucleotide-based microarray screening of a human lung carcinoma cell line, A549. Isochaihulactone-inducible genes included the early growth response gene-1 (EGR-1) and nonsteroidal anti-inflammatory drug-activated gene (NAG-1). Isochaihulactone increased EGR-1 and then NAG-1 mRNA and protein expression. Pure isochaihulactone induced phosphorylation of extracellular signal-regulated kinase (ERK) 1/2. Isochaihulactone-induced increases in EGR-1 and NAG-1 expression were reduced by the mitogen-activated protein kinase kinase 1/2 inhibitor 2'-amino-3'-methoxyflavone (PD98059), and this effect was not blocked by the phosphatidylinositol 3-kinase/protein kinase B pathway inhibitor 2-(4-morpholinyl)-8-phenyl-1(4H)-benzopyran-4-one hydrochloride (LY294002). Inhibition of isochaihulactone-induced NAG-1 expression by EGR-1 small interfering RNA blocked isochaihulactone-induced apoptosis in A549 cells, suggesting that induction of EGR-1 expression decreases survival of A549 cells. RNA interference using double-stranded RNA specific for NAG-1 also inhibited isochaihulactone-induced apoptosis, and cells transfected to increased NAG-1 expression had a greater apoptotic response to isochaihulactone and reduced colony formation efficiency. In addition, treatment of nude mice with isochaihulactone increased the in vivo NAG-1 expression as examined by immunohistochemistry from tumor biopsy. Isochaihulactone treatment increased the luciferase activity of NAG-1 in A549 cells transfected with the NAG-1 promoter construct. This induction increased expression of NAG-1 that was p53-independent and Sp1-dependent. Our findings suggest that NAG-1 expression is up-regulated by isochaihulactone through an ERK-dependent pathway involving the activation of EGR-1.     

In the absence of the low density lipoprotein receptor, human apolipoprotein C1 overexpression in transgenic mice inhibits the hepatic uptake of very low density lipoproteins via a receptor-associated protein-sensitive pathway.

To study the role of apoC1 in lipoprotein metabolism, we have generated transgenic mice expressing the human APOC1 gene. On a sucrose-rich diet, male transgenic mice with high APOC1 expression in the liver showed elevated levels of serum cholesterol and triglyceride compared with control mice (5.7+/-0.7 and 3.3+/-2.1 vs. 2.7+/-0.1 and 0.4+/-0.1 mmol/liter, respectively). These elevated levels were mainly confined to the VLDL fraction. Female APOC1 transgenic mice showed less pronounced elevated serum lipid levels. In vivo VLDL turnover studies revealed that, in hyperlipidemic APOC1 transgenic mice, VLDL particles are cleared less efficiently from the circulation as compared with control mice. No differences were observed in the hepatic production and extrahepatic lipolysis of VLDL-triglyceride. Also, VLDL isolated from control and APOC1 transgenic mice were found to be equally good substrates for bovine lipoprotein lipase in vitro. These data indicate that the hyperlipidemia in APOC1 transgenic mice results primarily from impaired hepatic VLDL particle clearance, rather than a defect in the hydrolysis of VLDL-triglyceride. To investigate which hepatic receptor is involved in the apoC1-mediated inhibition of VLDL clearance, APOC1 transgenic mice were bred with an LDL receptor-deficient (LDLR(-/-)) background. In addition, control, LDLR(-/-), and LDLR(-/-)/APOC1 mice were transfected with adenovirus carrying the gene for the receptor-associated protein (Ad-RAP). Both serum cholesterol and triglyceride levels were strongly elevated in LDLR(-/-)/APOC1 mice compared with LDLR(-/-) mice (52+/-19 and 36+/-19 vs. 8.4+/-0.9 and 0.5+/-0.2 mmol/liter, respectively), indicating that apoC1 inhibits the alternative VLDL clearance pathway via the remnant receptor. Transfection of LDLR(-/-) mice with Ad-RAP strongly increased serum cholesterol and triglyceride levels, but to a lesser extent than those found in LDLR(-/-)/APOC1 mice (39+/-8 and 17+/-8 vs. 52+/-19 and 36+/-19 mmol/liter, respectively). However, in LDLR(-/-)/APOC1 mice the transfection with Ad-RAP did not further increase serum cholesterol and triglyceride levels (52+/-19 and 36+/-19 vs. 60+/-10 and 38+/-7 mmol/liter, respectively). From these studies we conclude that, in the absence of the LDLR, apoC1 inhibits the hepatic uptake of VLDL via a RAP-sensitive pathway.     

Characterization of [5,6-3H]SQ 29,548 as a high affinity radioligand, binding to thromboxane A2/prostaglandin H2-receptors in human platelets

The binding of 5,6-3H(1S-[1 alpha, 2 beta(5Z), 3 beta, 4 alpha])-7-[3-([2-[(phenyl amino)carbonyl]hydrazino]methyl)-7-oxabicyclo[2.2.1]hept-2-yl]-5- heptenoic acid to receptors in human washed platelets (WP) and platelet membranes (PM) was characterized with regard to kinetics, saturability and competitive inhibition by putative thromboxane A2/prostaglandin H2 (TP)-receptor ligands. Specific binding of [3H]SQ 29,548 routinely amounted to 90 to 97% of total binding. The rate of association was 1.6 x 10(7) and 2.5 x 10(7) M-1 x min-1 in WP and PM, respectively. The corresponding rate of dissociation was 0.07 and 0.12 min-1, resulting in dissociation constants of 4.1 and 5.8 nM in WP and PM, respectively. Saturable binding to a single class of receptors indicated a receptor density of 2633 fmol/mg of protein in WP (1394 receptors/platelet; kd, 4.5 nM) and 1466 fmol/mg of protein in PM (kd, 11.3 nM). Specific binding of [3H]SQ 29,548 was inhibited by five antagonists (high/low affinity kd values in nanomolar), SQ 29,548 (WP, 5.2; PM, 7.3), SQ 28,668 (WP, 32; PM, 73), SQ 30,741 (WP, 28; PM, 50), BM 13,177 (WP, 140; PM, 4834) and BM 13,505 (WP, 5/379; PM, 11). Two agonists, U 44069 and U 46619, inhibited the binding in a biphasic manner, indicating binding to two receptor sites (approximately 20/80%) with kd values of 4/72 and 4/170 nM, respectively, in WP and 7/136 and 19/502 nM, respectively in PM. The demonstrated high affinity binding of [3H]SQ 29,548 to human platelet TP-receptors should make this radioligand a suitable and potentially useful tool in future studies of function, structure and regulation of TP-receptors.     

A simple,sensitive HPLC-PDA method for the quantification of itraconazole and hydroxy itraconazole in human serum: a reference laboratory experience

A chromatographic method (high-performance liquid chromatography/photodiode array detection) for the simultaneous determination of itraconazole and its mayor metabolite, hydroxy itraconazole, was developed. The validation data demonstrated acceptable values for linearity (dynamic range between 0.25–16 μg/mL for hydroxy itraconazole, 0.125–4 μg/mL for itraconazole), precision (Coefficient of Variation, 2.23–4.28% and 1.61–9.52% respectively), accuracy (Relative Error, −2.89 to −17.26% and −3.11 to 14.44%), selectivity, sensitivity (Lower limit of Quantification, 0.125 and 0.25 μg/mL), and recovery (97.30–105.82%) for both compounds. Its clinical suitability was also investigated in 104 trough human serum samples. The assay resulted to be rapid, sensitive, and simple for simultaneously quantification of these azole compounds in serum samples and should make a positive contribution to optimize therapies on an individual basis.     

Phorbol ester‐evoked Ca2+signaling in human platelets is via autocrine activation of P2X1 receptors,not a novel non‐capacitative Ca2+entry

Summary. Background: Platelets are reported to possess a protein kinase C (PKC)‐dependent non‐capacitative Ca²⁺entry (NCCE) pathway. The phorbol ester, phorbol, 12‐myristate, 13‐acetate (PMA) has been suggested to stimulate platelet NCCE. Recently we demonstrated important roles in store‐operated Ca²⁺entry in human platelets for Na⁺/Ca²⁺ exchangers (NCXs) and autocrine signaling between platelets after dense granule secretion. As PMA evokes dense granule secretion, we have investigated the role of NCXs and autocrine signaling in PMA‐evoked Ca²⁺entry. Objectives: To investigate the roles of NCXs and dense granule secretion in PMA‐evoked Ca²⁺signaling in human platelets. Methods: Fura‐2‐ or sodium‐binding benzofuran isophthalate (SBFI)‐loaded platelets were used to monitor cytosolic Ca²⁺or Na⁺ concentrations. Dense granule secretion was monitored as ATP release using luciferin–luciferase. Results: The NCX inhibitors KB‐R7943 or SN‐6, and removal of extracellular Na⁺, significantly reduced PMA‐evoked Ca²⁺entry. PMA‐evoked dense granule secretion was almost abolished by pretreatment with the PKC inhibitor Ro‐31‐8220 and significantly slowed by KB‐R7943. The P_2X1 antagonists Ro‐0437626 or MRS‐2159, or desensitization of P_2X1 receptors by prior treatment with α,β‐Methylene‐ATP or omitting apyrase from the medium, reduced PMA‐evoked Ca²⁺entry. Ro‐0437626 or chelation of extracellular Ca²⁺ slowed but did not abolish PMA‐evoked ATP release, indicating that PMA‐evoked dense granule secretion does not require P_2X1 receptor activation but is accelerated by P_2X1‐mediated Ca²⁺entry. The presence of NCX3 in human platelets was demonstrated by Western blotting. Conclusion: PMA‐evoked Ca²⁺entry results from an NCX3‐dependent dense granule secretion and subsequent P_2X1 receptor activation by secreted ATP, rather than activation of a novel NCCE pathway.     

Dihydromyricetin enhances the osteogenic differentiation of human bone marrow mesenchymal stem cells in vitro partially via the activation of Wnt/β‐catenin signaling pathway

Substantial evidence has demonstrated that the decreased osteogenic differentiation of bone mesenchymal stem cells (BMSCs) is closely related to bone metabolic diseases. Thus, it is very important to develop several potentially useful therapeutic agents to enhance BMSC osteogenesis. Flavonoids show promise in enhancing bone mass. Dihydromyricetin (DMY), a type of flavonoid, has not yet been investigated regarding its effects on BMSC osteogenesis. To investigate the effects of DMY on osteogenesis, human BMSCs were induced with or without DMY. We found that DMY (0.1–50 μm ) exhibited no cytotoxic effect on proliferation, but increased alkaline phosphatase activity, osteoblast‐specific gene expression, and mineral deposition. It also enhanced active β‐catenin expression and reduced dickkopf‐1(DKK1) and sclerostin expression. The Wnt/β‐catenin signaling pathway inhibitor (DKK1 and β‐catenin‐specific siRNA) decreased the enhanced bone mineral formation caused by DMY. Taken together, these findings reveal that DMY enhances osteogenic differentiation of human BMSCs partly through Wnt/β‐catenin in vitro.     

3B,a novel photosensitizer,inhibits glycolysis and inflammation via miR-155-5p and breaks the JAK/STAT3/SOCS1 feedback loop in human breast cancer cells

Compared to normal cells, most cancer cells produce ATP by glycolysis under aerobic conditions rather than via the tricarboxylic acid cycle (TCA). This study is intended to determine whether 3B, a novel photosensitizer, can inhibit glycolysis and inflammation in breast cancer cells. We showed that 3B had the ability to repress glucose consumption as well as the generation of ATP, lactate and lactate dehydrogenase. 3B-PDT not only inhibited the expression of IL-1β and IL-6 but also affected the JAK-STAT3 inflammatory pathway in vitro. The present study showed that 3B featured a significant inhibitory effect on the expression of microRNA-155-5p and SOCS1 might serve as a target gene. In vivo studies revealed that 3B inhibited tumor growth and exhibited almost no side effects. Therefore, through the anti-glycolytic effect and breakage of the JAK/STAT3/SOCS1 feedback loop via miR-155-5p, 3B may potentially serve as a potential therapeutic agent against breast cancer.     

Consistency of Response to Sumatriptan/Naproxen Sodium in a Randomized Placebo‐Controlled,Cross‐Over Study for the Acute Treatment of Migraine in Adolescence

A multi‐centered, randomized, placebo‐controlled, early intervention, cross‐over study was conducted to evaluate the consistency of response of sumatriptan/naproxen sodium 85/500 mg (S/NS) over 4 attacks in the acute treatment of migraine in adolescents. Inclusion of subjects was dependent on their age of 12‐17 years, frequency, and history of migraine headaches (1‐8 per month) over the previous 6 months prior to screening and generally healthy males and females of non‐childbearing potential that were not on excluded medications. Subjects were instructed to treat within 1 hour of pain onset, including when the pain was still mild. Subjects were randomized in a double‐blind fashion using a computer‐generated randomization list in which the study drug was prepared prior to study start, and subjects were allocated to a number in sequential order for each site. Each site was allocated number blocks in sets of 10 depending of the rate of enrollment. The objective of this study was to examine the efficacy of S/NS vs placebo in the primary end‐points of pain‐free response at 2 hours (2hPF), 24‐hour sustained pain‐free response (24hPF), and pain‐free response at 2 hours with early intervention (2hPFE) calculated as percentage out of all attacks. In the study, 94 subjects treated 347 attacks in total: treating 277 with S/NS and 70 with placebo. Compared with placebo, S/NS produced higher 2hPF rates (S/NS 37%, placebo 18%; P < .004), and 2hPFE with rates (S/NS 32%, 18% placebo; P < .03). Compared with placebo, 24hPF rates were S/NS 86%, placebo 78%, P < .17, which were higher than placebo but not clinically significant. 2hPF was reported in at least 2 of the 3 migraines treated with S/NS in 40.4% of subjects. 24hPF was reported in at least 2 of the 3 migraine treated with S/NS in 86.2% subjects. Adverse reactions were generally low and comparable between S/NS and placebo.     

Absence of human T-lymphotropic virus type I tax sequences in a population of normal blood donors in the Baltimore, MD/Washington, DC, area: results from a multicenter study

BACKGROUND: It was reported recently that sequences corresponding to the human T-lymphotropic virus type I (HTLV-I) tax gene were detected in peripheral blood mononuclear cells from 8 to 11 percent of healthy blood donors without detectable antibodies to HTLV-I. A multicenter blind study was conducted to determine if these results could be independently confirmed. STUDY DESIGN AND METHODS: Specimens were collected from 100 anti-HTLV-I-negative healthy blood donors and from 11 anti-HTLV-I- or anti-HTLV-II-positive individuals. All samples were coded and distributed to each of four independent testing laboratories for polymerase chain reaction analysis to detect sequences of the HTLV-I or HTLV-II tax gene, using detailed procedures specified by the laboratory reporting the original observation. Each laboratory also tested a dilution panel of a plasmid containing HTLV-I tax to determine the analytical sensitivity of the procedure. RESULTS: The analytical sensitivity of the screening methods permitted detection of as few as 1 to 10 copies of the tax gene. However, HTLV-I tax sequences could not be detected in any of the anti-HTLV-I-negative blood donors at more than one test site. CONCLUSION: HTLV-I tax sequences appear not to be present in this population of 100 blood donors negative for anti-HTLV-I.     

Facile fabrication,characterization and catalytic activity of a NiMo/Al2O3 nanocatalyst via a solution combustion method used in a low temperature hydrodesulfurization process: the effect of fuel to oxidant ratio

Novel bimetallic NiMo/Al₂O₃ nanocatalysts were fabricated via a solution combustion method to evaluate the role of fuel to oxidant molar ratios on their structural properties and hydrodesulfurization activity. The citric acid/oxidant ratios of 0.5, 1, 2 and 4 were selected to address the optimum ratio. Characterization results demonstrated that the content of citric acid considerably influenced the morphological and textural properties of the nanocatalysts. Such morphology modification is attributed to the consequent difference of the effluent exhaust gas during combustion. We show that with our method a relatively homogeneous distribution of the active material over the support can be achieved. The obtained data from N₂ adsorption–desorption analysis illustrated that at a fuel/oxidant ratio of 4 the external and surface area were ca. 2.1 and 1.5 times more than the corresponding one in the fuel/oxidant ratio of 0.5, respectively. Furthermore, a higher amount of fuel can improve the catalyst reducibility by decreasing the interaction of metal active phase with the support surface. The catalytic performance of sulfided nanocatalysts is evaluated in a slurry reactor, operated at ambient pressure using high thiophene contamination as a model fuel. The solution combustion synthesis method was able to remove 100% of the sulfur compound in the reaction medium.

Novel bimetallic NiMo/Al₂O₃ nanocatalysts were fabricated via a solution combustion method to evaluate the role of fuel to oxidant molar ratios on their structural properties and hydrodesulfurization activity.     

First‐in‐human study of the safety,tolerability, pharmacokinetics,and pharmacodynamics of ALPN‐101, a dual CD28/ICOS antagonist,in healthy adult subjects

ALPN‐101 (ICOSL vIgD‐Fc) is an Fc fusion protein of a human inducible T cell costimulatory ligand (ICOSL) variant immunoglobulin domain (vIgD) designed to inhibit the cluster of differentiation 28 (CD28) and inducible T cell costimulator (ICOS) pathways simultaneously. A first‐in‐human study evaluated the safety, tolerability, pharmacokinetics (PK), and pharmacodynamics (PD) of ALPN‐101 in healthy adult subjects. ALPN‐101 was generally well‐tolerated with no evidence of cytokine release, clinically significant immunogenicity, or severe adverse events following single subcutaneous (SC) doses up to 3 mg/kg or single intravenous (IV) doses up to 10 mg/kg or up to 4 weekly IV doses of up to 1 mg/kg. ALPN‐101 exhibited a dose‐dependent increase in exposure with an estimated terminal half‐life of 4.3–8.6 days and SC bioavailability of 60.6% at 3 mg/kg. Minimal to modest accumulation in exposure was observed with repeated IV dosing. ALPN‐101 resulted in a dose‐dependent increase in maximum target saturation and duration of high‐level target saturation. Consistent with its mechanism of action, ALPN‐101 inhibited cytokine production in whole blood stimulated by Staphylococcus aureus enterotoxin B ex vivo, as well as antibody responses to keyhole limpet hemocyanin immunization, reflecting immunomodulatory effects upon T cell and T‐dependent B cell responses, respectively. In conclusion, ALPN‐101 was well‐tolerated in healthy subjects with dose‐dependent PK and PD consistent with the known biology of the CD28 and ICOS costimulatory pathways. Further clinical development of ALPN‐101 in inflammatory and/or autoimmune diseases is therefore warranted.

Study Highlights

• WHAT IS THE CURRENT KNOWLEDGE ON THE TOPIC?

ALPN‐101 is an Fc fusion protein of a human inducible T cell costimulatory ligand variant immunoglobulin domain designed to block the cluster of differentiation 28 CD28) and inducible T cell costimulator (ICOS) simultaneously, thereby inhibiting two key costimulatory pathways in T lymphocytes. Although inhibitors of each pathway alone have been studied in humans, this is the first assessment of a dual antagonist in humans.

• WHAT QUESTION DID THIS STUDY ADDRESS?

This first‐in‐human study assessed the safety, tolerability, pharmacokinetics (PK), and pharmacodynamics (PD) of ALPN‐101 in healthy subjects. The PK‐PD relationship was evaluated.

• WHAT DOES THIS STUDY ADD TO OUR KNOWLEDGE?

ALPN‐101 demonstrated favorable safety and tolerability profiles and dose‐dependent PK and PD in healthy subjects. The dose‐PK‐PD analysis showed that the target saturation of ALPN‐101 can be well‐predicted based on PK data and the observed PD effects are consistent with the known biology of the CD28 and ICOS pathways.

• HOW MIGHT THIS CHANGE CLINICAL PHARMACOLOGY OR TRANSLATIONAL SCIENCE?

The results support further clinical development of ALPN‐101 and the PK‐PD relationship will guide dosing regimens in autoimmune and inflammatory diseases.     

Aortic endothelial cells regulate proliferation of human monocytes in vitro via a mechanism synergistic with macrophage colony-stimulating factor. Convergence at the cyclin E/p27(Kip1) regulatory checkpoint.

Monocyte-derived macrophages (Mphis) are pivotal participants in the pathogenesis of atherosclerosis. Evidence from both animal and human plaques indicates that local proliferation may contribute to accumulation of lesion Mphis, and the major Mphi growth factor, macrophage colony stimulating factor (MCSF), is present in atherosclerotic plaques. However, most in vitro studies have failed to demonstrate that human monocytes/Mphis possess significant proliferative capacity. We now report that, although human monocytes cultured in isolation showed only limited MCSF-induced proliferation, monocytes cocultured with aortic endothelial cells at identical MCSF concentrations underwent enhanced (up to 40-fold) and prolonged (21 d) proliferation. In contrast with monocytes in isolation, this was optimal at low seeding densities, required endothelial cell contact, and could not be reproduced by coculture with smooth muscle cells. Intimal Mphi isolated from human aortas likewise showed endothelial cell contact-dependent, MCSF-induced proliferation. Consistent with a two-signal mechanism governing Mphi proliferation, the cell cycle regulatory protein, cyclin E, was rapidly upregulated by endothelial cell contact in an MCSFindependent fashion, but MCSF was required for successful downregulation of the cell cycle inhibitory protein p27(Kip1) before cell cycling. Thus endothelial cells and MCSF differentially and synergistically regulate two Mphi genes critical for progression through the cell cycle.