Identification and Functional Analysis of Three Isoforms of Bovine BST-2

Human BST-2 (hBST-2) has been identified as a cellular antiviral factor that blocks the release of various enveloped viruses. Orthologues of BST-2 have been identified in several species, including human, monkeys, pig, mouse, cat and sheep. All have been reported to possess antiviral activity. Duplication of the BST-2 gene has been observed in sheep and the paralogues are referred to as ovine BST-2A and BST2-B, although only a single gene corresponding to BST-2 has been identified in most species. In this study, we identified three isoforms of bovine BST-2, named bBST-2A1, bBST-2A2 and bBST-2B, in bovine cells treated with type I interferon, but not in untreated cells. Both bBST-2A1 and bBST-2A2 are posttranslationally modified by N-linked glycosylation and a GPI-anchor as well as hBST-2, while bBST-2B has neither of these modifications. Exogenous expression of bBST-2A1 or bBST-2A2 markedly reduced the production of bovine leukemia virus and vesicular stomatitis virus from cells, while the antiviral activity of bBST-2B was much weaker than those of bBST-2A1 and bBST-2A2. Our data suggest that bBST-2A1 and bBST-2A2 function as part of IFN-induced innate immunity against virus infection. On the other hand, bBST-2B may have a different physiological function from bBST-2A1 and bBST-2A2.     

Gene duplication and spectral diversification of cone visual pigments of zebrafish

Zebrafish is becoming a powerful animal model for the study of vision but the genomic organization and variation of its visual opsins have not been fully characterized. We show here that zebrafish has two red (LWS-1 and LWS-2), four green (RH2-1, RH2-2, RH2-3, and RH2-4), and single blue (SWS2) and ultraviolet (SWS1) opsin genes in the genome, among which LWS-2, RH2-2, and RH2-3 are novel. SWS2, LWS-1, and LWS-2 are located in tandem and RH2-1, RH2-2, RH2-3, and RH2-4 form another tandem gene cluster. The peak absorption spectra (lambdamax) of the reconstituted photopigments from the opsin cDNAs differed markedly among them: 558 nm (LWS-1), 548 nm (LWS-2), 467 nm (RH2-1), 476 nm (RH2-2), 488 nm (RH2-3), 505 nm (RH2-4), 355 nm (SWS1), 416 nm (SWS2), and 501 nm (RH1, rod opsin). The quantitative RT-PCR revealed a considerable difference among the opsin genes in the expression level in the retina. The expression of the two red opsin genes and of three green opsin genes, RH2-1, RH2-3, and RH2-4, is significantly lower than that of RH2-2, SWS1, and SWS2. These findings must contribute to our comprehensive understanding of visual capabilities of zebrafish and the evolution of the fish visual system and should become a basis of further studies on expression and developmental regulation of the opsin genes.     

重金属对油菜种子萌发和胚根生长的影响

分析了Hg2 、Cd2 、Ni2 、Co2 、Zn2 5种重金属离子对油菜种子萌发和胚根伸长的影响,以及金属离子K 、Mg2 和Ca2 与重金属的交互作用。结果表明:(1)重金属对油菜种子萌发的抑制作用依次为Hg2 >Cd2 和Co2 >Ni2 >Zn2 ,而对胚根生长的毒害作用依次为Hg2 >Cd2 >Co2 >Ni2 >Zn2 。(2)萌发率为40%以上时,K 和Ca2 可以提高Ni2 、Zn2 和Co2 胁迫下油菜种子的萌发率,却进一步降低了Hg2 、Cd2 胁迫下种子的萌发;Mg2 可以提高Ni2 、Zn2 、Cd2 和Co2 胁迫下种子的萌发率,但对Hg2 毒害却没有缓解。(3)胚根伸长率达到60%以上时,K 和Mg2 增强了Ni2 、Hg2 、Cd2 和Co2 对胚根生长的抑制,而Ca2 则缓解了Zn2 、Ni2 和Co2 对胚根生长的抑制作用。研究结果对于重金属复合污染土壤中植物种子的萌发和定植具有理论和实践意义。     

Synthesis of 2-deoxy-2-C-alkylglucosides of myo-inositol as possible inhibitors of a N-deacetylase enzyme in the biosynthesis of mycothiol

Two new analogues of 1-D-1-O-(2-acetamido-2-deoxy-alpha-D-glucopyranosyl)-myo-inositol, a biosynthetic intermediate in the production of mycothiol in the Mycobacteria have been synthesized. Both the 2-deoxy-2-C-(2'-hydroxypropyl)-D-glucoside 5, and the 2-deoxy-2-C-(2'-oxopropyl)-D-glucoside 6, are derived from fully benzylated 1-D-1-O-(2-C-allyl-2-deoxy)-D-glucopyranosyl)-myo-inositol 20, readily assembled via a protected 2-C-allyl-2-deoxyglucosyl fluoride. Both 5 and 6 inhibit the incorporation of [3H]inositol by whole cells of Mycobacterium smegmatis into a number of metabolites which contain inositol.     

Measurement of gluconeogenesis by deuterated water: the effect of equilibration time and fasting period

Fasting gluconeogenesis (GNG) is often quantified using the 2H2O technique, which is based on plasma 2H2O enrichment and ensuing enrichment of plasma glucose at the C5 and C2 positions. Fractional (fr)GNG can be calculated using the ratio of C5 to C2 enrichment or the ratio of C5 to plasma 2H2O enrichment. For the latter, equilibration of 2H2O and C2 is required. The optimal equilibration period of 2H2O and C2 remains to be elucidated. In six healthy male subjects fasted for 18 h, we studied the effects of 3-, 5-, and 15-h 2H2O incubation periods on 1) the equilibration of plasma 2H2O and C2 glucose enrichment, 2) the measurement of frGNG, and 3) C5 labeling of hepatic glycogen after 1 mg of glucagon administration. After 3-h 2H2O incubation, plasma 2H2O and C2 were not equilibrated, frGNG C5/2H2O and C5/C2 were also different as was gluconeogenesis calculated with C5/2H2O and C5/C2. After 5- and 15-h 2H2O incubation, plasma 2H2O and C2 were equilibrated, and frGNG C5/2H2O and C5/C2 were similar, as was GNG calculated with C5/2H2O and C5/C2. After glucagon administration, no difference of C5 enrichment was found between 3, 5, and 15 h of 2H2O incubation. In conclusion, for reliable measurement of GNG in healthy subjects with C5/2H2O incubation periods longer than 3 h are required. After 5- and 15-h 2H2O incubation, GNG can be reliably measured with C5/2H2O. Gluconeogenetic labeling of glycogen did not affect the results after 3, 5, or 15 h of 2H2O incubation.     

Reconstitution of ancestral green visual pigments of zebrafish and molecular mechanism of their spectral differentiation

We previously reported that zebrafish have four tandemly duplicated green (RH2) opsin genes (RH2-1, RH2-2, RH2-3, and RH2-4). Absorption spectra vary widely among the four photopigments reconstituted with 11-cis retinal, with their peak absorption spectra (lambda(max)) being 467, 476, 488, and 505 nm, respectively. In this study, we inferred the ancestral amino acid (aa) sequences of the zebrafish RH2 opsins by likelihood-based Bayesian statistics and reconstituted the ancestral opsins by site-directed mutagenesis. The ancestral pigment (A1) to the four zebrafish RH2 pigments and that (A3) to RH2-3 and RH2-4 showed lambda(max) at 506 nm, while that (A2) to RH2-1 and RH2-2 showed a lambda(max) at 474 nm, indicating that a spectral shift had occurred toward the shorter wavelength on the evolutionary lineages A1 to A2 by 32 nm, A2 to RH2-1 by 7 nm, and A3 to RH2-3 by 18 nm. Pigment chimeras and site-directed mutagenesis revealed a large contribution (approximately 15 nm) of glutamic acid to glutamine substitution at residue 122 (E122Q) to the A1 to A2 and A3 to RH2-3 spectral shifts. However, the remaining spectral differences appeared to result from complex interactive effects of a number of aa replacements, each of which has only a minor spectral contribution (1-3 nm). The four zebrafish RH2 pigments cover nearly an entire range of lambda(max) distribution among vertebrate RH2 pigments and provide an excellent model to study spectral tuning mechanisms of RH2 in vertebrates.     

Delineation of the mechanism of inhibition of human T cell activation by PGE2

The capacity of PGE2 to inhibit human T cell responses was examined by investigating its effect on mitogen-induced IL-2 production and proliferation of highly purified CD4+ T cells. PGE2 inhibited both PHA and anti-CD3 induced proliferation and IL-2 production by an action directly on the responding T cell. Inhibition of IL-2 production reflected decreased accumulation of mRNA for IL-2. A variety of other cAMP elevating agents exerted similar inhibitory effects. Inhibition of proliferation could be overcome by supplemental IL-2, PMA, or the anti-CD28 mAb 9.3. Although PMA and 9.3 markedly increased the amount of IL-2 produced by mitogen-stimulated T cells, the percentage inhibition of IL-2 secretion caused by PGE2 and other cAMP elevating agents remained comparable in these costimulated cultures. Rescue of T cell DNA synthesis by these agents appeared to reflect the finding that, although PGE2 markedly inhibited IL-2 production, the absolute amount of IL-2 produced was increased sufficiently to sustain mitogen-induced proliferation. As anticipated, PGE2, forskolin, and cholera toxin increased T cell cAMP levels. The quantity of cellular cAMP generated in response to PGE2, cholera toxin, and forskolin could be inhibited by PMA or 2',5'-dideoxyadenosine. Using these reagents, the inhibitory effects of PGE2 were found to reflect intracellular cAMP levels, but only within a very narrow range. The results indicate that by elevating cAMP levels, PGE2 inhibits human T cell IL-2 production at a point that is common to both the CD3 and CD28 signaling pathways.     

Identification and characterization of a truncated isoform of NELL2

NELL2 is a neuron-specific secreted glycoprotein containing an N-terminal thrombospondin I-like domain (TSP-N). In this study, we describe NELL2-Tsp, a novel alternative splice variant of rat NELL2. NELL2-Tsp uses an alternate stop codon resulting in a C-terminal truncated form of NELL2, containing a signal peptide and a TSP-N domain. NELL2-Tsp is a glycosylated protein specifically expressed in brain tissue. NELL2-Tsp and NELL2 are secreted, likely due to the putative signal peptide. However, due to the truncation, the secreted portion of NELL2-Tsp is smaller than that of NELL2. Immunoprecipitation analysis confirmed that NELL2-Tsp was able to associate with NELL2 and with itself. In addition, expression of NELL2-Tsp notably reduced secretion of NELL2 and inhibited NELL2-mediated neurite outgrowth. These results suggest that NELL2-Tsp may act as a negative regulator of wild-type NELL2.     

Synthesis of analogues of 3-deoxy-D-manno-octulosonic acid (KDO) as potential inhibitors of CMP-KDO synthetase

A series of derivatives of the 2-deoxy analogue of beta-KDO (2,6-anhydro-3-deoxy-D-glycero-D-talo-octonic acid; ammonium salt, 2) has been synthesised as potential inhibitors of CMP-KDO synthetase, starting from methyl 2,6-anhydro-3-deoxy-4,5:7,8-di-O-isopropylidene-D-glycero-D-talo- octonate and replacing the CO2Me group attached to C-2 variously by CONH2, CONHOH, CH2OH, CH2PO(OH)(O-NH4+), COCH2PO(OH)(O-H3N+pheny), CH2CO2-NH4+, CON-HCH2CO2-NH4+, CONHBn, CONHHexyl, CO2Bn, and CO2Hexyl. Of these derivatives, the hydroxamic acid (CONHOH) was the best inhibitor of CMP-KDO synthetase, but was less potent than 2.     

Oxidation of ferrous iron during peroxidation of lipid substrates

Oxidation of Fe2+ in solution was dependent upon medium composition and the presence of lipid. The complete oxidation of Fe2+ in 0.9% saline was markedly accelerated in the presence of phosphate or EDTA and the ferrous oxidation product formed was readily recoverable as Fe2+ by ascorbate reduction. In contrast, in the presence of either brain synaptosomal membranes, phospholipid liposomes, fatty acid micelles or H2O2, less than 50% of the Fe2+ oxidized during an incubation could be recovered as Fe2+ via reduction with ascorbate. In the presence of unsaturated lipid, oxidation of Fe2+ was associated with peroxidation of lipid, as assessed by the uptake of O2 and formation of thiobarbituric acid-reactive products during incubations. Although relatively little Fe2+ oxidation or lipid peroxidation occurred in saline with synaptosomes or linoleic acid micelles during an incubation with Fe2+ alone, significant Fe2+ oxidation and lipid peroxidation occurred in incubations containing a 1:1 ratio of Fe2+ and Fe3+. Extensive Fe2+ oxidation and lipid peroxidation also occurred with Fe2+ alone in saline incubations with either linolenic or arachidonic acid acid micelles or liposomes prepared from dilinoleoylphosphatidylcholine. While a 1:1 ratio of Fe2+ and Fe3+ enhanced thiobarbituric acid-reactive product formation in incubations containing linolenic or arachidonic micelles, it reduced the rate of O2 consumption as compared with Fe2+ alone. The results demonstrate that oxidation of Fe2+ in incubations containing lipid substrates is linked to and accelerated by peroxidation of those substrates. Furthermore, the results suggest that oxidation of Fe2+ in the presence of lipid or H2O2 creates forms of iron which differ from those formed during simple Fe2+ autoxidation.     

Role of PGE2 on gallbladder muscle cytoprotection of guinea pigs

H2O2 and taurochenodeoxycholic acid (TCDC) impair the contraction induced by CCK-8, ACh, and KCl without affecting the actions of PGE2 and damage functions of membrane proteins except for PGE2 receptors. The aim of this study was to examine whether the preserved PGE2 actions contribute to cytoprotective mechanisms against reactive oxygen species. Muscle cells from guinea pig gallbladder were obtained by enzymatic digestion. Levels of lipid peroxidation and activities of SOD and catalase were determined by spectrophotometry. Pretreatment with PGE2 prevented the inhibition of H2O2 or TCDC on agonist (CCK-8, ACh, and KCl)-induced contraction and reduced the expected increase in lipid peroxidation and activities of catalase and SOD caused by H2O2 and TCDC. Incubation with CCK-8 for 60 min desensitized CCK-1 receptors up to 30 min, whereas no receptor desensitization was observed after PGE2 pretreatment. Cholesterol-rich liposome treatment enhanced the inhibition of H2O2 and TCDC on agonists-induced contraction, including that of PGE2. Pretreatment with PGE2 before H2O2 and TCDC did not completely block their inhibition on agonist-induced contraction. Cholesterol-rich liposome treatment impaired the expected increase in catalase activities in response to PGE2. We conclude that pretreatment with PGE2 prevents the muscle cell damage caused by H2O2 and TCDC due to the resistance of PGE2 receptors to agonist-induced desensitization. The preservation of PGE2 receptors may be designed to conserve these cytoprotective functions that are, however, impaired by the presence of excess cholesterol in the plasma membrane.     

Modulation of the expression of interleukin 2 receptors of human thymocytes by recombinant interleukin 2

The effect of purified recombinant interleukin 2 on the expression of the receptors for interleukin 2 by human thymocytes was examined. Interleukin 2 augmented the expression of interleukin 2 receptors and interferon-gamma synthesis by thymocytes activated with concanavalin A, and it was required to maintain the growth of thymocytes in vitro and the expression of interleukin 2 receptors. The increase observed in the number of receptor bearing thymocytes and in the density of receptors due to interleukin 2 occurred within the first 2 days of culture. Dexamethasone inhibited the expression of interleukin 2 receptors, the synthesis of interferon-gamma, and the early proliferation and protein synthesis of lectin-activated thymocytes during the first 2 days of culture. The inhibitory effect of dexamethasone on the expression of interleukin 2 receptors and on the synthesis of interferon-gamma was reversed by interleukin 2, whereas its effect on proliferation and on protein synthesis during the first two days of culture was not reversed by interleukin 2. Interleukin 2 induced the proliferation of thymocytes in vitro, even in the absence of activation by lectin; however, the number of cells displaying receptors which could be detected with anti-Tac remained low throughout the first week of culture and interferon-gamma synthesis was not observed. Nonetheless, interleukin 2-induced proliferation was inhibited by anti-Tac on a dose dependent manner. The results of the study document that recombinant interleukin 2, like purified natural interleukin 2, is required for the expression of interleukin 2 receptors, for interferon-gamma synthesis, and for the growth of thymocytes in vitro.     

Investigation of the catalytic mechanism of yeast inorganic pyrophosphatase

P1,P2-Bidentate Co(NH3)4PP was found to be a competitive inhibitor of pyrophosphatase vs. MgPP (Kis = 8.7 mM, pH 7) and, in the presence of Mg2+, an active substrate as well. P1,P2-Bidentate Cr(III) complexes of pyrophosphate, imidodiphosphate, and methylenediphosphonate were also competitive inhibitors vs. MgPP (pH 5.9; Kis = 0.2, 0.2, and 0.4 mM, respectively). In the presence of Mg2+, P1,P2-bidentate Cr(H2O)4PP was found to have a Km 10-fold greater and a turnover number 36-fold smaller than MgPP at pH 5.9. Mg2+, Mn2+, Co2+, Zn2+, Cd2+, Ni2+, and Fe2+ activate the CrPP--pyrophosphatase reaction, while Ca2+ and Ba2+ are not activators but serve as competitive inhibitors vs. Mg2+ (Kis = 0.35 and 2.3 mM). At levels above 0.1 mM, Mn2+, Co2+, and Zn2+ show activator inhibition. Kinetic studies with CrPP and Mg2+ suggest that the kinetic mechanism is rapid equilibrium ordered, with CrPP adding before Mg2+. pH studies of the MgPP/Mg2+ reaction and the CrPP/Mg2+ reaction suggest that the active form of the substrate is (MgPP)2- and that the uncomplexed metal ion cofactor interacts with at least two active-site residues, one possibly via H bonding and the other by direct coordination. The former group (pKa = 5.6) appears on the basis of temperature and solvent perturbation studies to be a carboxylic acid. The MgPP reaction also requires that an active-site residue (pKa = 7.5) be protonated. Temperature and solvent perturbation studies suggest that this residue is an amine. A mechanism accounting for these observations is presented.     

Occurrence of two distinct types of tissue inhibitor of metalloproteinases-2 in teleost fish

We have cloned for the first time two cDNAs encoding distinct types of tissue inhibitor of metalloproteinases-2 (TIMP-2) from teleost fish, Japanese flounder, and designated these types as jfTIMP-2a and jfTIMP-2b. The open reading frames of the jfTIMP-2a and jfTIMP-2b cDNAs are composed of 663 and 657 nucleotides and 221 and 219 amino acids, respectively. Both jfTIMP-2s contain 12 cysteine residues, which might form six disulfide bonds as in other animals' TIMP-2s. The predicted full-length amino acid sequence of jfTIMP-2a has lower identity to jfTIMP-2b (63%) than to those of human (74%) and chicken (73%) TIMP-2s, but higher than to those of other human TIMPs (TIMP-1: 39%, TIMP-3: 43%, TIMP-4: 45%), indicating that jfTIMP-2a is a common TIMP-2, while jfTIMP-2b is unique to Japanese flounder. However, the C-terminal region including the last three disulfide bonds of jfTIMP-2b has higher amino acid identity to those of other animal TIMP-2s than to that of jfTIMP-2a. Reverse-transcribed polymerase chain reaction (RT-PCR) analysis showed the mRNAs of jfTIMP-2a and jfTIMP-2b to be ubiquitously expressed in all tissues examined, but with different expression patterns. These findings suggest that the two distinct jfTIMP-2s might perform different functions in teleost tissues.     

Mechanism of Ba2+ block of M-like K channels of rod photoreceptors of tiger salamanders

IKx is a voltage-dependent K+ current in the inner segment of rod photoreceptors that shows many similarities to M-current. The depression of IKx by external Ba2+ was studied with whole-cell voltage clamp. Ba2+ reduced the conductance and voltage sensitivity of IKx tail currents and shifted the voltage range over which they appeared to more positive potentials. These effects showed different sensitivities to Ba2+: conductance was the least sensitive (K0.5 = 7.6 mM), voltage dependence intermediate (K0.5 = 2.4 mM) and voltage sensitivity the most sensitive (K0.5 = 0.2 mM). Ca2+, Co2+, Mn2+, Sr2+, and Zn2+ did not have actions comparable to Ba2+ on the voltage dependence or the voltage sensitivity of IKx tail currents. In high K+ (100 mM), the voltage range of activation of IKx was shifted 20 mV negative, as was the tau-voltage relation. High K+ did not prevent the effect of Ba2+ on conductance, but abolished its ability to affect voltage dependence and voltage sensitivity. Ba2+ also altered the apparent time-course of activation and deactivation of IKx. Low Ba2+ (0.2 mM) slowed both deactivation and activation, with most effect on deactivation; at higher concentrations (1-25 mM), deactivation and activation time courses were equally affected, and at the highest concentrations, 5 and 25 mM Ba2+, the time course became faster than control. Rapid application of 5 mM Ba2+ suggested that the time dependent currents in Ba2+ reflect in part the slow voltage-dependent block and unblock of IKx channels by Ba2+. This blocking action of Ba2+ was steeply voltage- dependent with an apparent electrical distance of 1.07. Ba2+ appears to interact with IKx channels at multiple sites. A model which assumes that Ba2+ has a voltage-independent and a voltage-dependent blocking action on open or closed IKx channels reproduced many aspects of the data; the voltage-dependent component could account for both the Ba(2+)- induced shift in voltage dependence and reduction in voltage sensitivity of IKx tail currents.     

Allosteric properties of phosphate-activated glutaminase of human liver mitochondria

The initial rate and final extent of polymerization of both bovine brain tubulin and sea urchin egg tubulin were enhanced in the presence of 2H2O. The yields were increased in association with the elevation of the 2H2O concentration. 2H2O also reduced the critical concentration for polymerization of brain tubulin. Thermodynamic analysis was attempted using the temperature dependence of the critical concentration for polymerization in the presence of 2H2O. We obtained linear van 't Hoff plots and calculated thermodynamic parameters which were positive and were increased with the elevation of the 2H2O concentration. The enhancement of the polymerization of tubulin by 2H2O could, therefore, be the result of the strengthening of intra- and/or inter-molecular hydrophobic interactions of the tubulin molecules. We believe that the increase in length and number of microtubules of the mitotic spindles in the dividing cells of the eukaryotes with 2H2O may be caused by the direct involvement of 2H2O in the polymerization of tubulin.     

Characteristics of estrogen-2/4-hydroxylase of porcine ovarian follicles: influence of steroidal and non-steroidal agents on the activity of the enzyme in vitro

The conversion of [3H]estradiol to 2-hydroxyestradiol (2-OH-E2) by homogenates of porcine ovarian follicles was assayed in vitro in the presence and absence of 10 and 100 microM concentrations of the following potential substrates or inhibitors of estrogen-2/4-hydroxylase (E-2/4-H): (1) estrogens; estrone (E1), estriol (E3) and 17 alpha-estradiol (17 alpha-E2), (2) catecholestrogens; 2-hydroxyestradiol (2-OH-E2), 4-hydroxyestradiol (4-OH-E2) and 2-hydroxyestrone (2-OH-E1); (3) 2-methoxyestradiol (2-MeO-E2); (4) halogenated estrogens; 2-bromoestradiol, (2-Bromo-E2) 4-bromoestradiol and 2,4-dibromoestradiol; (5) androgens; testosterone (T), dihydrotestosterone (DHT) and androstenedione; (6) progesterone; (7) epinephrine; (8) inhibitors of steroid aromatase; aminoglutethimide and 4-hydroxyandrostenedione and (9) SKF 525A, an inhibitor of cytochrome P-450. Progesterone and 2-Bromo-E2 were the two most effective inhibitors (2-OH-E2 formation = 4 and 5% of control at 100 microM and 29.6 and 17.4% at 10 microM of progesterone and 2-Bromo-E2, respectively). 2-MeO-E2 at 100 microM was nearly as effective as progesterone in inhibiting E-2/4-H activity but only caused about 50% inhibition at 10 microM. The three catecholestrogens reduced 2-OH-E2 formation to about the same degree (21-23% of control at 100 microM). The 2,4-dibromo-E2 was equipotent with the catecholestrogens while 4-bromo-E2 was about half as effective. The phenolic estrogens, potential substrates for the enzyme, reduced 2-OH-E2 formation to different degrees, with E3 being the most effective. Among the androgens, DHT was almost as effective an inhibitor as the catecholestrogens, T was about half as effective while androstenedione had no effect. Epinephrine and the two inhibitors of aromatase did not inhibit E-2/4-H activity. SKF 525A inhibited E-2/4-H activity but with a potency only about 1/10th that reported for liver.     

Effect of dialyzate fractions of spinach on growth of human-derived cells

Aqueous dialyzate of spinach was separated by Sephadex G-100, G-25 gel-filtrations and DEAE-cellulose ion exchange chromatography, and the effects of the fractions on growth of human-derived normal and cancer cell lines were studied. One of the fractions (SPW2) from a Sephadex G-100 gel-filtration of dialyzate promoted growth of a hybridoma cell line (HB4C5). Sephadex G-25 gel filtration of the SPW2 fraction produced four main fractions; SPW2-1, SPW2-2, SPW2-3 and SPW2-4. Among them, the SPW2-1, SPW2-3 and SPW2-4 fractions promoted the growth of a histiocytic lymphoma cell line (U-937) and hybridoma cell lines (HB4C5 and SI102). Both SPW2-3 and SPW2-4 fractions inhibited the growth of a breast cancer cell line (MCF-7). The SPW2-3 fraction, especially, was found to inhibit growth of cancer cell lines such as MCF-7, a differentiated hepatoma (HuH-7), a lung adenocarcinoma (PC-8), a lung squamous carcinoma (QG-56), and a lung anaplastic carcinoma (QG-90) more preferentially than that of normal cell lines. It was also found that a constituent of the SPW2-3 fraction caused the morphological alteration of U-937 cells in serum-free medium.