Differential expression and biological activity of retinoic acid–induced TGFβ isoforms in embryonic palate mesenchymal cells

The effect of retinoic acid (RA) on TGF-β mRNA expression and protein production in murine embryonic palate mesenchymal (MEPM) cells was examined by Northern blotting and TGF-β bioassay in association with TGF-β isoform-specific neutralizing antibodies. Heat or acid activation was used to distinguish between latent and active TGF-β protein released into the culture medium. RA had little or no effect on TGF-β1 mRNA expression and protein production. In contrast, RA increased TGF-β2 and β3 protein released into the culture medium, the protein being mostly in an inactive or latent form. The amount of active TGF-β released was increased relative to the total increase in TGF-β released, suggesting that RA treatment stimulated activation of latent TGF-β. RA also increased TGF-β2 mRNA expression; we have previously shown that RA upregulates TGF-β3 mRNA in these cells. RA and TGF-β individually inhibited ³H-thymidine incorporation into MEPM cell DNA, while, when administered simultaneously, they inhibited proliferative activity to a greater extent. Heat- or acid-activated conditioned medium (CM) from MEPM cells treated with RA was able to inhibit ³H-thymidine incorporation into MEPM cell DNA to an extent greater than seen with RA treatment alone. Coincubation of heat-activated CM from RA-treated MEPM cells with pan-specific or TGF-β2 or β3-specific neutralizing antibodies partially relieved the inhibitory effect on ³H-thymidine incorporation, suggesting that this proliferative response was due to RA-induced TGF-β. Simultaneous treatment with RA and TGF-β also stimulated gycosaminoglycan (GAG) synthesis to an extent greater than that seen with TGF-β treatment alone, this despite the ability of RA to inhibit GAG synthesis. These data demonstrate a role for RA and RA-induced TGF-β in the regulation of palate cell proliferation and GAG synthesis and suggest a role for TGF-β in retinoid-induced cleft palate. J. Cell. Physiol. 177:36–46, 1998. © 1998 Wiley-Liss, Inc.     

Overexpression of megsin induces mesangial cell proliferation and excretion of type IV collagen in vitro

Over-expression of megsin is associated with mesangial cell (MC) proliferation and extracellular matrix (ECM) accumulation. The underlying pathogenesis is unknown. This study demonstrate that over-expression of megsin induced incorporation of [³H]thymidine in MCs and PDGF-BB, TGF-β1 upregulation. Concentrations of PDGF-BB, TGF-β1 and type IV collagen in the culture medium of MCs transfected with megsin were higher than controls. Anti-PDGF-BB suppressed incorporation of [³H]thymidine in MCs transfected with megsin and mRNA expression of TGF-β1 in stable transformant MCs, suggesting that over-expression of megsin induces cell proliferation and ECM accumulation in MCs, upregulation of PDGF-BB and TGF-β1 is probably the main route involved in pathogenesis.     

Phenotypic consequences of transforming growth factor β1 gene ablation in murine embryonic fibroblasts: Autocrine control of cell proliferation and extracellular matrix biosynthesis

The profound effects of transforming growth factor β1 (TGF-β1) on the immune system, cardiogenesis, in yolk sac hematopoeisis and in differentiation of endothelium have been demonstrated by detailed analyses of TGF-β1 knockout mice during embryogenesis. We have systematically examined the autocrine and paracrine roles of TGF-β1 in cell proliferation and in its ability to modulate the gene expression of selected components of extracellular matrix (ECM) using embryonic fibroblasts from TGF-β1 null mice (TGF-β1^−/−). The rates of cell proliferation of embryonic fibroblasts from normal mice (TGF-β1^+/+) and TGF-β1 null mice were compared by cell counting, by ³H thymidine incorporation, and by measuring the fraction of cells in the G1, S, and G2/M phases of the cell cycle by fluorescent activated cell sorting (FACS). Concurrently, the expression of pro-α1(I) collagen, fibronectin, and plasminogen activator inhibitor-1 (PAI-1) was also quantified by hybridization of total mRNA from TGF-β1^+/+ and TGF-β1^−/− embryonic fibroblasts. We report that TGF-β1^−/− cells proliferated at about twice the rate of TGF-β1^+/+ cells. Further, TGF-β1 null fibroblasts accumulated and synthesized lower constitutive levels of pro-α1(I) collagen, fibronectin, and PAI-1 mRNA. The quantitative differences in the rates of cell proliferation and ECM gene expression between TGF-β1^+/+ and TGF-β1^−/− cells could be eliminated by treatment of TGF-β1^+/+ cells with a neutralizing antibody of TGF-β1. Thus, our results are consistent with the hypothesis that TGF-β1 acts as a negative autocrine regulator of growth and a positive autocrine regulator of ECM biosynthesis in embryonic fibroblasts. 176:67–75, 1998. Published 1998 Wiley-Liss, Inc.

1 This article was prepared by a group of United States government employees and non-United States government employees, and as such is subject to 17 U.S.C. Sec. 105.

     

Crosslinked fibrous collagen for use as a dermal implant: control of the cytotoxic effects of glutaraldehyde and dimethylsuberimidate

Collagen intended for use as a dermal implant may be crosslinked to increase its strength and persistence in vivo. Sheets of rat fibrous dermal collagen were crosslinked with either glutaraldehyde or dimethylsuberimidate and the cytotoxicity to human dermal fibroblasts resulting from these treatments was measured by following the inhibition of [3H]leucine incorporation into protein. Both agents were cytotoxic at the concentrations required to effect adequate crosslinking (0.005% and 25 mM, respectively). This cytotoxicity could be limited by extensive washing and by incubation with 5 mM L-lysine, with 66 mM (0.25% w/v) sodium borohydride, or with 71.3 mM (1% w/v) dimedone. However, cytotoxicity was most efficiently controlled by treatment with a combination of 66 mM sodium borohydride and 5 mM L-lysine or 66 mM sodium borohydride and 71.3 mM dimedone. [3H]Leucine incorporation by cells exposed to crosslinked collagen treated with these combinations approached 100% of the values recorded with cells exposed to uncrosslinked collagen.     

SMAD3介导TGF-β1刺激软骨细胞增殖和抑制软骨细胞肥大性分化(英文)

为研究TGF β1 SMAD3信号对小鼠软骨细胞增殖和分化的影响 ,分离了野生型与Smad3基因剔除 (Smad3ex8 ex8)突变纯合子小鼠肋骨软骨细胞并进行了体外培养 .通过3 H TdR参入实验检测了体外培养软骨细胞的增殖能力 .TGF β1可以刺激野生型软骨细胞的增殖 ,Smad3基因缺失导致小鼠软骨细胞丧失对TGF β1刺激生长作用的应答 .Northern杂交显示 ,TGF β1促进野生型小鼠软骨细胞表达Ⅱ型胶原 ,而Smad3基因缺失突变纯合子软骨细胞大量表达肥大性软骨细胞的分子标记物X型胶原 .结果表明 ,SMAD3介导转化生长因子TGF β1刺激软骨细胞增殖并抑制软骨细胞的肥大性分化     

Preferential secretion of collagen type 3 versus type 1 from adventitial fibroblasts stimulated by TGF-β/Smad3-treated medial smooth muscle cells

Restenosis, or arterial lumen re-narrowing, occurs in 30–50% of the patients undergoing angioplasty. Adaptive remodeling is the compensatory enlargement of the vessel size, and has been reported to prevent the deleterious effects of restenosis. Our previous studies have shown that elevated transforming growth factor (TGF-β) and its signaling protein Smad3 in the media layer induce adaptive remodeling of angioplastied rat carotid artery accompanying an increase of total collagen in the adventitia. In order to gain insights into a possible role of collagen in Smad3-induced adaptive remodeling, here we have investigated a mechanism of cell–cell communication between medial smooth muscle cells (SMCs) and adventitial fibroblasts in regulating the secretion of two major collagen subtypes. We have identified a preferential collagen-3 versus collagen-1 secretion by adventitial fibroblasts following stimulation by the conditioned medium from the TGF-β1-treated/Smad3-expressing medial smooth muscle cells (SMCs), which contained higher levels of CTGF and IGF2 as compared to control medium. Treating the TGF-β/Smad3-stimulated SMCs with an siRNA to either CTGF or IGF2 reversed the effect of conditioned media on preferential collagen-3 secretion from fibroblasts. Moreover, recombinant CTGF and IGF2 together stimulated adventitial fibroblasts to preferentially secrete collagen-3 versus collagen-1. This is the first study to identify a preferential secretion of collagen-3 versus collagen-1 from adventitial fibroblasts as a result of TGF-β/Smad3 stimulation of medial SMCs, and that CTGF and IGF2 function together to mediate this signaling communication between the two cell types.     

Rapidly serum-degradable hydrogel templating fabrication of spherical tissues and curved tubular structures

Development of the techniques for fabricating three‐dimensional tissues still poses significant challenges for tissue engineering. We used hydrogels obtained from phenol‐substituted amylopectin (AP‐Ph) as templates for preparing multicellular spherical tissues (MSTs) and endothelialized curved tubular structures in type I collagen gel. AP‐Ph hydrogel microparticles of diameter 200 µm and fibers of diameter 500 µm disappeared within hours of soaking in a serum‐containing medium. HeLa cells and human endothelial cells were enclosed in the microparticles and hydrogel fibers, respectively, and then embedded in Ca‐alginate microcapsules or the collagen gel. The enclosed cells were released in cavities formed by hydrogel degradation in the serum‐containing medium. The released HeLa cells in the spherical cavities grew and formed MSTs, eventually filling the cavities. The spherical tissues were easily harvested by liquefying the Ca‐alginate hydrogel microcapsule membrane by chelation using sodium citrate. The released endothelial cells grew on the tubular cavity surfaces and formed tubular structures. An endothelial cell network was formed by cell migration into the collagen gel. These results demonstrate the potential of serum‐degradable AP‐Ph hydrogels in constructing three‐dimensional tissues. Biotechnol. Bioeng. 2012; 109: 2911–2919. © 2012 Wiley Periodicals, Inc.     

Differential effects of various growth factors and cytokines on the syntheses of DNA,type I collagen,laminin, fibronectin,osteonectin/secreted protein,acidic and rich in cysteine (SPARC), and alkaline phosphatase by human pulp cells in culture

The purpose of this study is to differentiate roles of several growth factors and cytokines in proliferation and differentiation of pulp cells during development and repair. In human pulp cell cultures, laminin and type I collagen levels per cell remained almost constant during the whole culture period (22 days). On the other hand, secreted protein, acidic and rich in cysteine (SPARC/osteonectin) and alkaline phosphatase (ALPase) levels markedly increased after the cultures reached confluence. Laminin and type I collagen, as well as fibronectin, stimulated the spreading of pulp cells within 1 h. Adding transforming growth factor-β (TGF-β) decreased laminin and ALPase levels, whereas it increased SPARC and fibronectin levels 3- to 10-fold. Western and Northern blots showed that TGF-β enhanced SPARC synthesis at the protein and mRNA levels. Basic fibroblast growth factor (bFGF) decreased type I collagen, laminin, SPARC, and ALPase levels without changing the fibronectin level. Platelet-derived growth factor (PDGF) selectively decreased laminin, SPARC, and ALPase levels. Epidermal growth factor (EGF) also decreased SPARC and ALPase levels. Tumor necrosis factor-α (TNF-α) and interleukin-1β (IL-1β) decreased type I collagen and laminin levels, and abolished SPARC and ALPase syntheses. Of these peptides, bFGF and PDGF showed the greatest stimulation of [³H]thymidine incorporation into DNA. TGF-β, EGF, and TNF-α had less effect on DNA synthesis, whereas IL-1β inhibited DNA synthesis. These findings demonstrated that TGF-β, bFGF, EGF, PDGF, TNF-α, and IL-1β have characteristically different patterns of actions on DNA, laminin, type I collagen, fibronectin, ALPase, and SPARC syntheses by pulp cells. J. Cell. Physiol. 174:194–205, 1998. © 1998 Wiley-Liss, Inc.     

Cell-associated activation of latent transforming growth factor-β by calpain

Transforming growth factor-β (TGF-β) is normally secreted in a latent form, and plasmin-mediated proteolytic cleavage of latency-associated peptide (LAP), a component of latent TGF-β complex that makes the complex inactive, activates latent TGF-β. In the present study, we investigated the possible involvement of calpain, one of the cysteine proteases, in the activation of latent TGF-β. When recombinant latent TGF-β was incubated with calpain (1–10 u/ml) in a test tube, calpain cleaved LAP and released mature TGF-β from the latent complex. When calpain was applied to cultured bovine capillary endothelial (BCE) cells, a low concentration of calpain (0.05–0.1 u/ml) inhibited the migration and proliferation of the cells, and these inhibitory effects were abrogated by anti-TGF-β antibody as well as by calpain inhibitor peptide, but not by α₂-antiplasmin, a specific inhibitor of plasmin. Active TGF-β was detected in the conditioned medium of BCE cells collected in the presence of calpain. Chemical cross-linking of ¹²⁵I-calpain to BCE cells followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) analysis indicated that calpain bound to the cell surface through chondroitinase ABC-sensitive proteoglycan. In addition, treatment of the BCE cells with chondroitinase ABC abrogated the inhibitory effect of calpain on the migration of these cells. Our data thus suggest that calpain is able to activate latent TGF-β through a mechanism independent of plasmin. This activation is efficient in the presence of cells, and calpain binds to the cell surface via proteoglycan and activates latent TGF-β, which is targeted to the same surface. J. Cell. Physiol. 174:186–193, 1998. © 1998 Wiley-Liss, Inc.     

TGF-β1-mediated activations of c-Src and Rac1 modulate levels of cyclins and p27Kip1 CDK inhibitor in hepatoma cells replated on fibronectin

Integrin-mediated cell adhesion transduces signals to regulate actin cytoskeleton and cell proliferation. While understanding how integrin signals cross-talk with the TGF-β1 pathways, we observed lamellipodia formation and cyclin regulation in Hep3B cells, following TGF-β1 treatment. To answer if integrin signaling via actin organization might regulate cell cycle progression after TGF-β1 treatment, we analyzed cross-talk between the two receptor-mediated pathways in hepatoma cells on specific ECMs. We found that basal and TGF-β1-mediated activation of c-Src and Rac1, expression of cyclins E and A, and suppression of p27^Kip1 were significant in cells replated on fibronectin, but not in cells on collagen I, indicating a different integrin-mediated cellular response to TGF-β1 treatment. Levels of tyrosine phosphorylation and actin-enriched lamellipodia on fibronectin were also more prominent than in cells on collagen I. Studies using pharmacological inhibitors or transient transfections revealed that the preferential TGF-β1 effects in cells on fibronectin required c-Src family kinase activity. These observations suggest that a specific cross-talk between TGF-β1 and fibronectin-binding integrin signal pathways leads to the activation of c-Src/Rac1/actin-organization, leading to changes in cell cycle regulator levels in hepatoma cells. Therefore, this study represents another mechanism to regulate cell cycle regulators when integrin signaling is collaborative with TGF-β1 pathways.     

A novel modified culture medium for enhancing redifferentiation of chondrocytes for cartilage tissue engineering applications

The dedifferentiation of articular chondrocytes during in vitro expansion deteriorates the hyaline cartilage regeneration. Many approaches have been developed to enhance the redifferentiation of chondrocytes. In this study, a new and effective protocol to improve the redifferentiation of porcine chondrocytes in a pellet form was established. Pellets were initially treated in the modified culture media containing ternary mixtures, binary mixtures, or single reagents of sodium citrate (SCi), sodium chloride (SCh), and ethylenediaminetetraacetic acid (EDTA) at varied concentrations during the first 3 days of culture, followed by a normal culture medium until 21 days. Viability, proliferation, cartilaginous gene expression, extracellular matrix formation, and morphology of treated cell pellets were comparatively examined. Chondrocytes exposed to SCi, SCh, and EDTA individually or in combinations of two or three chemicals were non-cytotoxic when the concentration ranges of the chemicals were 1.83–2.75, 5.00–7.50, and 1.00–1.50 mM, respectively. Cells treated with the modified media containing EDTA alone and EDTA-containing mixtures enhanced glycosaminoglycan production as well as upregulated cartilaginous gene expression, despite their low proliferation rates. Overall, when all three reagents were in use, a pronounced synergistic effect on the activations of glycosaminoglycan accumulation and type II collagen production was explicitly observed at most, particularly when cells were cultured in the medium containing SCi, SCh, and EDTA at concentrations of 2.20, 6.00, and 1.20 mM, respectively. With a use of this protocol, the redifferentiation of articular chondrocytes for regeneration of hyaline cartilage for tissue engineering applications could be readily achieved.     

Increased collagen synthesis in Kirsten sarcoma virus-transformed BALB 3T3 cells grown in the presence of dibutyryl cyclic AMP

Growth of Kirsten sarcoma virus-transformed BALB 3T3 (Ki-3T3) cells in the presence of dibutyryl cyclic AMP (dbcAMP) resulted in alteration of morphology, inhibition of growth, and increased collagen synthesis as measured by incorporation of ¹⁴C-proline into collagenase-digestible protein. There was an increase in incorporation of ¹⁴C-proline into collagen when expressed not only as dpm per μg DNA or protein, but also as the relative rate of collagen synthesis compared to total cellular protein synthesis, which suggests that an alteration in amino acid transport cannot totally account for the increased incorporation into collagen. The three properties studied were all affected over a concentration range of 0.10 to 1.0 mM dbcAMP, but each had a slightly different dose-response curve. At 0.5 mM dbcGMP or sodium butyrate, there was no affect on growth, morphology, or the relative rate of collagen synthesis indicating specificity for the dibutyryl analog of cAMP. Growth of the parent line, BALB 3T3, was inhibited by 0.5 mM dbcAMP, but the relative rate of collagen synthesis did not increase. These results suggest that although growth, morphology, and collagen synthesis are altered in transformed cells so that they more closely resemble those of the parent line, each property may be regulated independently.     

β-Hydroxybutyrate as a Precursor to the Acetyl Moiety of Acetylcholine

Abstract— Rat brain cortex slices were incubated with 10 mm -glucose and trace amounts of [6-³H]glucose and [3-¹⁴C]β-hydroxybutyrate. The effects of (-)-hydroxycitrate, an inhibitor of ATP-citrate lyase; methylmalonate, an inhibitor of β-hydroxybutyrate dehydrogenase; and increasing concentrations of unlabeled acetoacetate were examined. The incorporation of label into lactate, citrate, malate, and acetylcholine (ACh) was measured and ³H:¹⁴C ratios calculated. Incorporation of [¹⁴C]β-hydroxybutyrate into lactate was limited because of the low activity of gluconeogenic enzymes in brain, whereas incorporation of ¹⁴C label into Krebs cycle intermediates and ACh was higher than in previous experiments with [³H-,¹⁴C]-glucose. (–)-Hydroxycitrate (5.0 m^M) reduced incorporation of [³H]glucose and [¹⁴C]β-hydroxybutyrate into ACh. In contrast, slices incubated with methylmalonate (1 mm ) showed a decrease in ¹⁴C incorporation without appreciably affecting glucose metabolism. The effects of high concentrations of methylmalonate were nonselective and yielded a generalized decrease in metabolism. Acetoacetate (1 mm ) also produced a decreased ¹⁴C incorporation into ACh and its precursors. At 10 mm , acetoacetate reduced ³H and ¹⁴C incorporation into ACh without substantially affecting total ACh content. From the results, it is suggested that in adult rats β-hydroxybutyrate can contribute to the acetyl moiety of ACh, possibly via the citrate cleavage pathway, though it is quantitatively less important than glucose and pyruvate. This contribution of ketone bodies could become significant should their concentration become abnormally high or glucose metabolism be reduced.     

Platelet-rich plasma promotes the regeneration of cartilage engineered by mesenchymal stem cells and collagen hydrogel via the TGF-β/SMAD signaling pathway

The tissue engineering technique using mesenchymal stem cells (MSCs) and scaffolds is promising. Transforming growth factor-β1 (TGF-β1) is generally accepted as an chondrogenic agent, but immunorejection and unexpected side effects, such as tumorigenesis and heterogeneity, limit its clinical application. Autogenous platelet-rich plasma (PRP), marked by low immunogenicity, easy accessibility, and low-cost, may be favorable for cartilage regeneration. In our study, the effect of PRP on engineered cartilage constructed by MSCs and collagen hydrogel in vitro and in vivo was investigated and compared with TGF-β1. The results showed that PRP promoted cell proliferation and gene and protein expressions of chondrogenic markers via the TGF-β/SMAD signaling pathway. Meanwhile, it suppressed the expression of collagen type I, a marker of fibrocartilage. Furthermore, PRP accelerated cartilage regeneration on defects with engineered cartilage, advantageous over TGF-β1, as evaluated by histological analysis and immunohistochemical staining. Our work demonstrates that autogenous PRP may substitute TGF-β1 as a potent and reliable chondrogenic inducer for therapy of cartilage defect.     

Enhanced chondrogenic marker expression of human mesenchymal stem cells by interaction with both TGF-β3 and hyaluronic acid

This study was designed to evaluate the additive effects of transforming growth factor-beta3 (TGF-β3) and hyaluronic acid (HA) on chondrogenic differentiation of human mesenchymal stem cells (hMSCs). The hMSCs were cultured on collagen type I-, HA-, or fibronectin-coated cell culture dishes with or without TGF-β3 added to the culture medium. Four weeks after cell culture, chondrogenic differentiation of hMSCs was determined by evaluating the expression of cartilage-specific markers using real-time polymerase chain reaction, immunocytochemistry, and Western blot analysis. hMSCs cultured on HA-coated dishes with TGF-β3 supplementation revealed a prominent increase in collagen type II, aggrecan, and Sox9. When hMSCs were cultured without TGF-β3 supplementation, only hMSCs cultured on HA-coated dishes showed prominent expression of the cartilage-specific markers. This study shows that chondrogenic differentiation of hMSCs can be enhanced additively by interactions with both a specific cell-adhesion matrix and a soluble growth factor.     

Long term growth and maintenance of stratified rat urothelium in vitro

Abstract Culture conditions that allow long term growth and maintenance of rat urothelium have been determined using short (3 to 8 days) and long (14 to 60 days) term measurements of cell density and tritiated thymidine incorporation as indices. The basal nutrient medium utilized was a mixture of 199 plus Ham's F 12 (1:1) supplemented with insulin (1 μ/ml) and hydrocortisone (1 μ/ml). Long term culture of urothelium seems to require porous collagen. Porous albumin, or plastic dishes thinly coated with albumin, collagen, fibronectin or mixtures thereof, did not support long term maintenance. Serum was required at a concentration of 5%, independent of other additives. Decreasing Ca⁺⁺ levels below that normally found the basal medium (～1 × 10^?3) to as low as 1 × 10^?4, resulted in increased short term proliferation, but decreased long term maintenance by causing a loss of stratification of the urothelium. Even a slight increase in Ca⁺⁺ concentration from 1.0 to 1.5 × 10^?3 resulted in an inhibition of proliferation and an increase in the number of large flat cells which subsequently sloughed off in sheets. The deletion of either insulin, hydrocortisone or both, inhibited growth. The addition of epidermal growth factor (EGF) or its homologue, transforming growth factor (TGF-α), increased cell proliferation markedly and caused a variable increase in stratification. However, epithelium induced to rapid growth and proliferation with EGF, eventually exhausted its growth potential and died. TGF-β1, alone or in combination with either EGF or α-TGF, had no additional effect upon urothelial growth. Repeated transfers of urothelium by enzymatic dissociation led to decreased growth and maintenance potential. The data indicates that long term maintenance of stratified urothelium in culture requires a porous collagen substrate and fetal bovine serum together with hormonal requirements and concentrations of Ca⁺⁺ that neither greatly stimulate nor inhibit growth.     

Effects of transforming growth factor-β on collagen gene expression and collagen synthesis level in mineralizing cultures of osteoblast-like cell line,MC3T3-E1

• 1.1. High levels of type I collagen mRNA and [³H]proline incorporation into collagenase digestable protein by MC3T3-E1 cells were detected during the first 7 days of culture, after which they declined.
• 2.2. Type I collagen gene expression was stimulated by TGF-β in the early culture stage when the collagen gene expression was fully functioning.
• 3.3. However, these stimulatory effects disappeared at the differentiation stages. Although collagen gene expression was stimulated by TGF-β (2.0 ng/ml) in early culture, collagen synthesis in medium was not.
• 4.4. This study shows that collagen synthesis and collagen gene expression were affected by the state of differentiation in MC3T3-E1 cells and that the rate of stimulation by TGF-β in collagen gene expression decreased over time in culture.

     

Effects of citrate, heparin and cation supplementation on mortality and egg production of laboratory-reared horn flies

Abstract. The effects of the blood anticoagulants sodium citrate and sodium heparin on horn fly, Haematobia irritans L., egg production were tested. Sodium citrate was added to freshly collected bovine blood to give final concentrations of 5-100mM while sodium heparin was used in concentrations of 10–70 USP units/ml blood. Small cages containing five male and ten female newly emerged laboratory-reared horn flies were maintained for 8–10 days on these blood samples, and mortality and egg production recorded daily. Results showed that as blood citrate concentration was increased, egg production decreased logarithmically. At sodium citrate concentrations of 50 mM and above, severe impacts on egg production and adult horn fly survival occurred. Although no dose-related response of egg production to increasing heparin concentrations was noted, the 25 USP units heparin/ml blood treatments gave the largest egg production, yielding approximately 28% more eggs than any other treatment. Since citrate is a known chelator of divalent metal cations, the effects of supplemental cation additions to citrated blood were tested for their ability to reverse the egg production decrease seen at 50 mM sodium citrate. Blood samples containing 50mM sodium citrate were supplemented with CaCl₂, calcium lactate, CuCl₂, cupric acetate, FeCl₃, ferric citrate, MgCl₂, magnesium acetate, MnCl₂, ZnSO₄, EGTA or EGTA plus calcium lactate, each at 1 mM except EGTA which was used at 2.5 mM. The magnesium acetate supplement and the combination of calcium lactate plus EGTA resulted in a statistically significant increase in egg production ( P < 0.05).