Decreased monocyte-mediated cytostasis of human cancer cell in patients with lung cancer

Summary In vivo animal studies support the concept that monocytes and macrophages are important in the immune surveillance of oncogenesis and that in vitro activated murine macrophages are cytocidal for tumour cells. In this study, the tumour cell cytotoxic activity of human peripheral blood monocytes was examined by measuring the inhibition of ³H-thymidine uptake in the human cancer cell line, established in our laboratory from human squamous cell lung cancer. The monocytes from 8 of the 31 lung cancer patients (26%) showed a percentage growth inhibition of less than 69.8%, which exceeded the 95% confidence limits of the percentage growth inhibition observed with healthy control monocytes. On the other hand, among the 16 sarcoidosis and the 8 tuberculosis cases no value was below 69.8%. However, there was no significant difference between the growth inhibition and the clinical stages or histological type. When OK-432, a Streptococal agent, was administered in vivo to patients with lung cancer, an elevation of the growth inhibition was observed in 7 out of 8 patients. It was confirmed that the tumour cell cytostatic activity of the monocyte is suppressed in patients with lung cancer, and these monocyte deficits hinder the inhibition of tumour growth and metastasis.     

Mouse lymphoma L1210 cells acquire a new cystine transport activity upon adaptation in vitro

Summary Mouse lymphoma L1210 cells maintained in vitro at a high cell density for a certain time period adapted themselves to the in vitro environment and were able to grow indefinitely. From these adapted cells, more than 30 clones were isolated. They all had much higher activity to take up cystine than the original L1210 cells, supporting a previous view that the deficiency of the cystine uptake limits the survival and growth of L1210 cells in vitro. The cystine uptake of one cloned cell line was characterized. The enhanced uptake of cystine in these cells was mainly mediated by a Na⁺-independent, saturable system and was potently inhibited by glutamate and some other anionic amino acids, but less by aspartate. Such activity of cystine uptake was not observed in the original L1210 cells. The results suggest that, upon adaptation in vitro, L1210 cells acquire a new cystine transport activity necessary for survival and growth in vitro.     

Effect of antisera against recombinant tumor necrosis factor and the monocyte-derived cytotoxin(s) on monocyte-mediated killing of various tumor cells

Antisera raised against recombinant tumor necrosis factor (TNF) and against the monocyte-derived cytotoxic/cytostatic protein factor (CF), which is related to recombinant TNF, have been compared with respect to their ability to inhibit monocyte-mediated killing of various types of cells which differ in their sensitivity to recombinant TNF. During 6 hr of coculturing monocytes and target cells, the recombinant TNF antiserum inhibited killing of the extremely TNF-sensitive WEHI 164 clone 13 cells and actinomycin D-treated WEHI 164 cells from which the clone 13 cells were derived (parental WEHI 164 cells (P-WEHI 164 cells]. The CF antiserum also inhibited monocyte-mediated killing of these cells during 6 hr of coculturing with monocytes, but on a per volume basis it was less potent than the recombinant TNF antiserum, consistent with the fact that the CF antiserum also was much less potent in inhibiting the cytotoxic activity of recombinant TNF. However, during 72 hr of coculturing with monocytes and target cells, the CF antiserum inhibited monocyte-mediated killing of P-WEHI 164 cells more efficiently than the recombinant TNF antiserum. Moreover, during 72 hr of coculturing with monocytes, only the CF antiserum was able to significantly inhibit monocyte-mediated killing of the relatively recombinant TNF-resistant K562 cells. This suggests that a factor immunologically different from recombinant TNF, perhaps a form of natural TNF differing somewhat immunologically from recombinant TNF, was involved in the killing of K562 cells, and possibly in the killing of P-WEHI 164 cells, during 72 hr of coculturing with monocytes. Although this factor was present extracellularly, it appears that it may act as a monocyte-associated factor in monocyte-mediated killing of K562 cells, since exposure to recombinant interferon-gamma (rIFN-gamma) in the absence of Escherichia coli endotoxin (lipopolysaccharide, LPS) activated the monocytes to mediate killing of K562 cells more efficiently than exposure to LPS alone, despite the fact that only little cytotoxic/cytostatic activity was released from the monocytes without the addition of LPS. The ability of rIFN-gamma and LPS to activate monocytes to produce and release CF has also been studied.     

Modulation of natural cytotoxicity by alloantibodies. I. Alloantisera enhancement of cytotoxicity of mouse spleen cells toward a human myeloid cell line.

Natural killer activity of spleen cells obtained from different strains of mice against the human myeloid leukemia cell line, K562, and two mouse cell lines P815 and L1210 was measured by using the 4-hr chromium release assay. The level of cytotoxic activity of spleen cells against the K562 target was usually less than 4% lysis. However, treatment of the spleen cells with a specific anti-H-2 antiserum resulted in a dose-dependent augmentation of the degree of lysis of K562 cells. The augmentation of cytotoxic activity could be obtained by pretreatment of the spleen cells with antisera or by directly adding the antisera to the cytotox-incubation medium. Anti-thy-1 and anti-immunoglobulin antisera had no enhancing effect under similar conditions. The specific alloantisera-treated spleen cells did not show any increase in cytotoxicity against P815 and L1210 target cells. Spleen cells responsible for the alloantiserum-mediated augmentation of cytotoxicity against K562 cells appear to be different from T or B cells as indicated by their resistance to anti-thy-1 and complement treatment and lack of adherence to nylon wool columns.     

Suppressor T cells induced by soluble immune complexes can adoptively transfer inhibition of cytophilic antibody receptors on macrophages.

Immune complexes (soluble antigens of L1210 and antibody to L1210) when given to allogeneic C3H mice generated suppressor cells that inhibited receptors for cytophilic antibody on macrophages. Thymocytes or nylon-nonadherent splenic T cells (4 × 10⁷) from immune-complex-treated mice transferred this suppressive activity when injected into normal syngeneic mice. Maximal suppression of macrophages occurred 4 to 6 days after transfer. In contrast, even 5 × 10⁷ nylon-adherent, non-T spleen cells from immune-complex-treated (“suppressed”) mice failed to induce macrophage suppression in the syngeneic recipients. When T-cell-depleted “B” mice were used as recipients, neither thymocytes nor splenic T cells from suppressed mice were able to transfer suppressive activity. However, the admixture of 2 × 10⁷ normal syngeneic thymocytes with 4 × 10⁷ thymocytes from suppressed mice restored the latter's ability to elicit suppression of macrophages in T-cell-deprived recipients. Peritoneal monocytes from recipients of suppressor thymocytes (to L1210) could not attach cytophilic antibody to L1210 but could attach cytophilic antibody to EL-4 and sheep erythrocytes. Thus, suppressor T cells induced by immune complexes can transfer immunologically specific macrophage suppression (inhibition of cytophilic antibody receptors) to syngeneic recipients. The suppressor cells required the cooperation of normal T cells, suggesting either recruitment of suppressor cells from, or a helper effect by, the normal T cells, in order to produce their effect.     

Non-cytotoxic activity of pyran copolymer-induced macrophages associated with potentiation of tumour vaccine in recipient mice

Summary Mice inoculated with both L1210 murine tumour vaccine and pyran copolymer were more resistant to L1210 than those inoculated with either of these agents alone. Rabbit anti-mouse thymocyte globulin and silica reduced the augmented resistance of these mice, suggesting the involvement of activated anti-tumour T cells and macrophages in the augmented resistance. We studied the activation of these two cells separately and examined the possible contribution of pyran copolymer-induced peritoneal cells to the augmented resistance to an inoculation of live tumour. Pyran copolymer-induced peritoneal cells endowed the tumour vaccine-primed mice, but not unprimed mice, with resistance to implanted L1210 and, among those peritoneal cell populations, macrophages but not T cells were responsible for this effect since the activity was associated with a cell population which was (1) adherent to nylon wool columns, (2) sensitive to silica and (3) insensitive to anti-Thy 1.2 antibody plus complement. The pyran copolymer-induced peritoneal cells had very little antiproliferative activity when tested against L1210 in vitro and mice inoculated with these peritoneal cells did not survive a challenge of live L1210 cells much longer (<1 day) than L1210 inoculated control mice. Furthermore, the survival of L1210 vaccine-primed mice inoculated with one-tenth the amount of live L1210 (10²) was still much shorter than that of mice primed with L1210 vaccine plus pyran copolymer and challenged with ten times as many (10³) live L1210 cells. Therefore, direct tumouricidal activity was probably not a major factor in the in vivo immunological augmenting activity of the pyran copolymer-induced macrophages.     

Natural cytotoxic cells of gilthead seabream: maximum percentage of lysis

The maximum percentage of lysis of head-kidney non-specific cytotoxic cells (NCC) against mammalian tumour cells (L1210 and K562) in the marine teleost gilthead seabream (Sparus aurata L.) was studied. The present data indicate the short period of time necessary for gilthead seabream NCC to form conjugates and deliver a lethal hit. The maximum percentage of lysis observed demonstrates that seabream NCC activity against L1210 tumour cells is faster than against K562 tumour cells. This kinetic parameter suggests that fish NCC show a less efficient cytotoxic activity than their mammalian counterparts. The possibility of applying theoretical treatments to systems consisting of lower vertebrate non-specific cytotoxic cells and tumour targets, similar to those applied to mammals, is considered, and the phylogenetic implications of our findings are discussed.     

Development of host-dependent high-grade tumor-specific immunity through a novel mechanism triggered by the Lyt-2+ tumor-specific T cell clone (K7L) that induces temporal growth of L1210 leukemia-K7L-variant

When a murine leukemia L1210-specific Lyt-2+ T cell clone, K7L, was injected i.p. into CD2F1 mice together with L1210, the normal growth of L1210 in the peritoneal cavity of the mice at the early stage (days 0 to 5) was strongly inhibited, but L1210 grew progressively at the middle-stage (days 5 to 10), and then was rejected at the late stage (days 10 to 20). The mice thus survived for long times (more than 60 days), whereas the normal control injected with L1210 alone died within 14 days. The L1210 that grew at the middle stage in mice initially inoculated with L1210 together with K7L was a K7L-insensitive (K7L-) variant. All of eight tumor clones established from L1210-K7L- by limiting dilution was insensitive to the antitumor activity of K7L, and this property of tumor clones was stable after repeated in vitro passage. The initial depression of the L1210 growth by K7L followed by growth and rejection of the variant L1210-K7L- by the host T cell activity was then found to prepare a strong, long-lasting (more than 3 mo) immunity to protect mice against the high-dose (10(7) cells per mouse) challenge of original L1210. Corresponding to this result, definite tumor (L1210)-specific cytotoxic T lymphocyte (CTL) activity against both variant and original L1210 targets was developed by antigen (L1210) restimulation in the culture of spleen cells from these mice, but was not increased to a detectable level before L1210-K7L- variant started to grow. It was suggested that the 1210-K7L- variant and the original L1210 should have the common tumor-specific antigen that was independent of the K7L-reactive antigen, and that original L1210, whose growth was retarded by K7L, primed the host with the common antigen to be enormously boosted by the subsequently growing L1210-K7L- variant.     

Analysis of cytostatic/cytotoxic lymphokines: relationship of natural killer cytotoxic factor to recombinant lymphotoxin, recombinant tumor necrosis factor, and leukoregulin

Previous results that were obtained by using supernatants from the co-culture of human peripheral blood lymphocytes and the natural killer susceptible cell line K562 strongly inhibited the growth of various tumor cell lines. No correlation was observed between the susceptibility of the target cell lines to growth inhibition and to lysis by natural killer cells. Rather the spectrum of cytostatic activity and the characteristics of the soluble factor were similar to those of leukoregulin (LRG), a recently described lymphokine. Because of the recent availability of recombinant tumor necrosis factor (TNF) and lymphotoxin (LT), we compare the target selectivity and mechanism of action of these (TNF, LT, LRG) factors with natural killer cytotoxic factor (NKCF). The pattern of target cell susceptibility to growth inhibition or cytolysis by the factors were quite distinct from the pattern observed when cells were exposed to NKCF. Furthermore, antibodies to rLT or rTNF had no effect on LRG cytostasis or NKCF lysis, arguing against a requirement for or synergistic interaction with low levels of LT or TNF. Some of the targets susceptible to LRG were growth inhibited but were not lysed, thereby distinguishing it from NKCF. Furthermore, LRG cytostasis was not inhibited by mannose-6-PO4 or rabbit antibodies to granule cytolysin, both of which block natural killer cytotoxic factor. Therefore, LRG appears to be a cytostatic factor produced by large granular lymphocytes in response to K562 that is distinct from NKCF, TNF, and LT. In addition, NKCF, rLT, rTNF, and LRG, although having cytotoxic/cytostatic activity, are distinct functional factors and may represent a family of lytic factors.     

Mannosylerythritol lipid induces granulocytic differentiation and inhibits the tyrosine phosphorylation of human myelogenous leukemia cell line K562

Mannosylerythritol lipid (MEL), which induced granulocytic differentiation of human promyelocytic leukemia cell line HL60, also induced differentiation of human myelogenous leukemia cell line K562. MEL inhibited insulin-dependent cell proliferation and induced leukocyte esterase activity of K562 cells. MEL markedly increased the differentiation-associated characteristics in granulocytes, such as nitroblue tetrazolium (NBT) reducing ability, expression of Fc receptors, and phagocytic activity of K562 cells. The tyrosine phosphorylation in K562 cells inhibited by MEL. These results suggest that MEL directly down-regulates the tyrosine kinase activities in K562 cells to inhibit the cell proliferation and to induce the differentiation. This revised version was published online in June 2006 with corrections to the Cover Date.     

不同生长期草菇提取物的生物活性研究

对草菇不同生长期的菌丝体及子实体分别用95%乙醇提取,对获得的5个提取物进行了化学成分定性检验、HPLC图谱分析和体外抗肿瘤、抑制DPP-IV酶的活性研究。结果表明：草菇不同生长期的菌丝体及子实体中均含有生物碱、有机酸、甾类（或三萜）、糖类、氨基酸（蛋白）等物质。草菇4个生长期的菌丝体醇提物对正常细胞WPMY-1的增殖无抑制作用而对3种肿瘤细胞L1210、SW620、K562全部或部分的增殖有一定的抑制作用。说明这4个生长期的菌丝体醇提物具有抗肿瘤活性。子实体95%醇提物对肿瘤细胞L1210、SW620、K562和正常细胞WPMY-1的增殖均具有抑制作用,说明该部分可能具有细胞毒性。草菇不同生长期的菌丝体和子实体提取物均有一定抑制DPP-IV酶的活性,其中生长2周的菌丝体醇提物对DPP-IV酶的抑制活性较强,IC₅₀值达到0.32mg/mL,该结果说明生长2周的草菇菌丝体具有最佳的抗肿瘤和降血糖潜力。     

Spectroscopic and biological properties of palladium(II) complexes of ethyl 2-quinolylmethylphosphonate

Spectroscopic (1H NMR, UV-visible) and biological (cytostatic, antiviral activity) studies of palladium(II) complexes of monoethyl 2-quinolymethylphosphonate (2-Hmqmp): dihalide adducts trans-Pd(2-Hmqmp)2X2, chelate Pd(2-mqmp)2.2H2O and ion-pair salt complexes [2-H2mqmp]+[Pd(2-Hmqmp)X3]- (X = Cl, Br), have been carried out in order to determine structural and biological properties of these biologically interesting complex compounds. The complexes were evaluated in vitro for their cytostatic activity against murine L1210 and human KB and T-lymphoblast Molt4/C8 and CEM/0 cell lines, and the results obtained were compared with those obtained for the complexes of diethyl 2-quinolylmethylphosphonate (2-dqmp). The L1210 cell was the most responsive line and complexes of diester 2-dqmp were more active than complexes of monoester 2-Hmqmp. A good relationship was observed between the cytostatic activity of the complexes and their lypophilicity or solubility. Some complexes exhibited significant cell growth inhibitory effects, but none of the them was more cytostatic than cisplatin. Both 2-dqmp and 2-Hmqmp complexes were also evaluated in vitro for their antiviral activity in different assay systems, comprising a broad spectrum of DNA and RNA viruses, but no specific antiviral effects were noted. In addition, the complexes did not show any specific anti-HIV activity.     

Benzoyl nitrogen mustard derivatives of benzoheterocyclic analogues of netropsin: synthesis and biological activity

Synthesis, DNA binding properties and biological activity of a series of bis-benzoheterocycle derivatives 5-11, structurally related to the natural dipyrrole antitumor agent netropsin, and tethered to a benzoyl nitrogen mustard (BAM) as alkylating moiety is reported and structure-activity relationships determined. These compounds 5-11 have been evaluated for sequence selective alkylating properties and cytotoxicity against murine L1210 and human K562 leukaemia cells. Using as target sequence a portion of the long terminal repeat of the type-1 human immunodeficiency virus, we found that these compounds induce similar patterns of DNA fragmentation. In addition, the results obtained indicate that all synthesized compounds retain a good antiproliferative activity in the submicromolar range, and generally are more active against L1210 than K562 cells. With respect to both these cell lines, compounds 6, 7, 10 and 11 showed the greatest potency, ranging from 0.3 to 1 microM, while compounds 8 and 9 exhibit the lowest activity (IC(50)=2-12 microM). Among compounds 5-11, the derivative 11 was found to be the most potent member of this class and it is 5 and 10-fold less active than the bis-pyrrole counterpart 2 against K562 and L1210 cell lines, respectively. For compound 11, the substitution of the C-terminus benzofurane with N-methylindole and indole (to give the compounds 5 and 6, respectively) led to a decrease in cytotoxicity, which is more evident against the K562 cell line. Finally, differences were found among compounds 5-11 in induction of K562 differentiation. Some of them (compounds 7, 8 and 9) are potent inducers of erythroid differentiation of K562 cells, and could be proposed for differentiation anti-cancer therapy.     

Erythromyeloid tumor cells (K562) induce PGE synthesis in human peripheral blood monocytes

Human peripheral blood monocytes were found to spontaneously produce prostaglandin of the E series (PGE) in culture medium (0.5 ng to 3.0 ng/7.5 X 10(5) cells), and the addition of K562 tumor cells enhanced the production by five- to 15-fold after 18 hr of incubation. PGE2 (10(-6) M) inhibited the cytolytic activity of freshly isolated peripheral blood monocytes against K562 target cells by 50%. The PGE production was inhibited by inhibitors of cyclo-oxygenase (indomethacin, aspirin, and ETYA) when present during the incubation. However, pretreatment of monocytes with these cyclo-oxygenase inhibitors was ineffective in preventing PGE production. Kinetic experiments showed that appreciable stimulation of PGE production occurred only after 6 hr of co-culture. Other human tumor cell lines (HSB, SB, and CEM) enhanced PGE production upon co-culture with monocytes but to a lesser extent (twofold to threefold). Monocytes treated with 0.4% formaldehyde or heat (56 degrees C) were not capable of producing PGE when cultured alone or with K526 tumor cells. In contrast, formaldehyde-treated, but not heat-treated, K562 tumor cells were able to induce monocytes to produce PGE. By using a single cell conjugation assay, K562 tumor cells were found to bind equally well to treated or untreated monocytes. In contrast, the lytic activity of treated monocytes against K562 target cells was abolished. The presence of protein synthesis inhibitor, cycloheximide, was found to inhibit PGE production by monocytes cultured alone or with K562 tumor cells. Supernatants from K562 tumor cell cultures were also capable of inducing monocytes to produce PGE, and their effect on PGE production from monocytes was suppressed by cycloheximide. In addition, pretreatment of either K562 tumor cells or monocytes with an irreversible protein synthesis inhibitor, emetine, also suppressed the production of PGE upon co-culture with the untreated counterpart. The production of PGE by monocytes in response to exposure to tumor cells may represent a mechanism whereby tumor cells subvert host immune defense against them.     

Natural killer-sensitive targets stimulate production of TNF-alpha but not TNF-beta (lymphotoxin) by highly purified human peripheral blood large granular lymphocytes

Highly purified populations of large granular lymphocytes (LGL) have been shown to mediate natural killer (NK) cell activity. The mechanism of target cell killing by NK cells is as yet undefined; however, it has been postulated that such killing may involve soluble cytotoxic factors produced and secreted by NK cells. The data presented show that NK-sensitive, but not NK-resistant, tumor cell lines induce highly purified populations of human LGL to produce factors with cytotoxic and/or cytostatic activities. We have identified one of these factors as tumor necrosis factor-alpha (TNF-alpha), and have shown that production of this factor is enhanced by recombinant human interferon-gamma (rHuIFN-gamma). We have also examined the role of TNF-alpha in the cytotoxic function of NK cells. The data show that although highly purified LGL populations produce low levels of TNF-alpha, the cytotoxic/cytostatic activity of this lymphokine on tumor target cells does not correlate with the cytotoxic activity of highly purified populations of LGL on tumor target cells. Furthermore, NK cell-mediated cytotoxicity is not reliably inhibited by antibodies directed against various epitopes of recombinant human TNF-alpha and/or recombinant TNF-beta (lymphotoxin) or rHuIFN-gamma. These data show that although TNF-alpha is produced by highly purified NK-containing LGL cell populations, this factor does not appear to be responsible for NK cell cytotoxicity against classical NK target cells such as Molt-4 or K562. We suggest that NK function can be attributed to a combination of factors rather than to a single factor alone, and that at least two major phenomena are involved in LGL function: the rapid cytotoxic events which lead to the cell lysis measured in classical in vitro NK assays such as against K562; and the release of factors such as TNF-alpha with cytotoxic/cytostatic activities which would inhibit the growth of invading tumor cells in vivo.     

Effects of beta-adrenergic receptor activation, cholera toxin and forskolin on human natural killer cell function.

Membranes from highly purified natural killer (NK) cells were ADP-ribosylated by treatment with cholera toxin (CTX). CTX resulted in a single band of specific 32P incorporation at Mr 43,600. CTX treatment of intact NK cells caused a 9-fold increase in cyclic AMP (cAMP) concentrations. Pretreatment of NK cells with CTX diminished their ability to lyse K562 tumour cells by up to 79%. Forskolin treatment elevated NK cell cAMP levels 8-fold and decreased lysis of K562 cells by up to 45%. Adrenaline and isoprenaline (isoproterenol) both inhibited lysis of K562 cells by approx. 35% and elevated cAMP by at least 2.5-fold, and their inhibition of lysis was reversed by propranolol. These data suggest that the stimulatory guanine-nucleotide-binding protein GS coupled to beta-adrenergic receptors is involved in transducing signals which inhibit NK cell lysis of tumour cells. CTX and forskolin also diminish the ability of NK cells to bind K562 cells (binding is necessary for lysis). This suggests that the NK-cell receptor(s) for the tumour cell may be altered as a consequence of cAMP-mediated events or by activation of GS.     

Selective inhibition by bis(2-chloroethyl)methylamine (nitrogen mustard) of the Na+/K+/Cl- cotransporter of murine L1210 leukemia cells

Incubation of L1210 murine leukemia cells in vitro with 10 microM of the bifunctional alkylating agent bis(2-chloroethyl)methylamine (nitrogen mustard, HN2) for 10 min brought about a fall of more than 99.9% in their ability to form colonies when the cells were suspended in 0.5% nutrient agar. Incubation with HN2 also inhibited the influx of the potassium congener 86Rb+ to exponentially proliferating L1210 cells in a concentration-dependent manner. This inhibition was specific and was accounted for by a reduction of a diuretic-sensitive component of 86Rb+ influx, identified in the preceding paper (Wilcock, C. and Hickman, J.A. (1988) Biochim. Biophys. Acta 946, 359-367) as being mediated by a Na+/K+/Cl- cotransporter. Inhibition by 10 microM HN2 was complete after a 3-h incubation. There was no inhibition at this time of the ouabain-sensitive component of 86Rb+ influx, mediated by Na+/K+-ATPase. After 3 h of incubation with 10 microM HN2 there was also no change in the membrane potential of the treated cells as measured by the distribution of the [3H]TPMP+, no decrease in cellular ATP concentration and no change in intracellular pH, and the ability of the cells to exclude the vital dye Trypan blue was not significantly different from control values. These effects of HN2, therefore, appeared to follow lethal damage, but precede cell death. In the stationary phase of L1210 cell growth, the component of HN2 and diuretic-sensitive K+ influx to L1210 cells was reduced, whilst the component constituting the HN2-insensitive ouabain-sensitive sodium pump was increased. The monofunctional alkylating agent MeHN1 (2-chloroethyldimethylamine) which cannot cross-link cellular targets and has no antitumor activity, did not inhibit 86Rb+ influx to L1210 cells when incubated at equimolar or equitoxic concentrations to HN2. Intracellular potassium concentration was maintained close to control values of 138 +/- 10 mM in HN2-treated cells because of an approx. 35% fall in cell volume. The results suggest that the Na+/K+/Cl- cotransporter is a selectively inhibitable target for HN2, and the lesion is discussed with reference to the cytotoxic effects of this agent.     

紫菜多糖对免疫细胞及肿瘤细胞生长的影响（英文）

采用细胞培养技术测定从条斑紫菜中得到的多糖PY3对小鼠免疫细胞及人肿瘤细胞K562生长的影响。结果表明,PY3对小鼠骨髓细胞和脾脏淋巴细胞的增殖以及对混合淋巴细胞反应均有一定的促进作用。PY3对血癌细胞K562的生长有一定的抑制作用,研究表明多糖PY3不仅能够提高小鼠免疫细胞的功能,而且有一定的抗肿瘤作用。     

Characterization of suppressor cells in mice bearing syngeneic mastocytoma.

Suppressor cells from syngeneic P815 mastocytoma-bearing DBA/2 mice that inhibit in vitro generation of specific anti-tumor cytotoxicity were characterized. Suppressive activity was almost completely eliminated by treating suppressive spleen cells with anti-theta serum and complement. Treatment with anti-mouse lg serum and complement or with carbonyl iron did not affect their suppressive activity. When suppressive thymocytes from P815 tumor-bearing DBA/2 mice were tested for their capacity to inhibit the generation of cytotoxicity against L1210 cells, a leukemia line in DBa/2 mice, they did not affect the activity, indicating that the supressor cells in the thymocytes of P815 tumor-bearing mice are specific to the tumor. When Ficoll-Hypaque density cell separation was carried out with cytotoxic spleen cells and suppressive spleen cells from 815 tumor-bearing mice, the dense fraction was enriched for kiler cells whereas the suppressive activitty was mainly recovered in the light fraction. Therefore, killer cells and suppressor cells in P815 tumor-bearing mice are thought to be distinct populations.     

Induction of tumor growth inhibitory factor (TGIF) in human mononuclear cells by OK-432, a streptococcal preparation

Summary A tumor growth inhibitory factor (TGIF) was induced in the culture supernatant from mixed culture of human peripheral blood mononuclear cells (PBMC) and a streptococcal preparation, OK-432, in vitro. The activity generated in the supernatant increased in a time-dependent fashion and first appeared 6 h after the initiation of culture, reaching its maximum around 48 h. The TGIF was cytostatic against seven of ten human tumor targets, but not against three murine tumor targets. Tumor cell growth was inhibited by a transient contact, i.e., 1 h, with TGIF. The TGIF was produced by lymphocytes but not by monocytes, because the activity was usually enhanced by elimination of plastic-adherent cells from the original PBMC fraction. The TGIF was relatively stable against heating at 56° C for 30 min, but the activity was totally destroyed after heating at 70° C for 5 min. The molecular weight of TGIF was estimated to be about 43×10³ daltons by gel filtration. No interferon (IFN) activity was detected in the TGIF-positive fractions obtained by gel filtration, and the TGIF-positive fractions did not inhibit the growth of tumor necrosis factor (TNF)-sensitive mouse L929 cells. The TGIF activity was not significantly affected in neutralizing tests using specific antibodies against human IFN and TNF. The OK-432 was administered i.p. for management of cancer patients with malignant ascites. Ascites-derived mononuclear cells (ASMC) were obtained before and 3 to 5 days after OK-432 injection. The ASMC obtained after the injection produced TGIF in vitro in the absence of OK-432; the preinjection ASMC showed no such production. A positive correlation was found between TGIF-producing activity by ASMC and the effect of OK-432 injection on ascites volume. These results indicate that TGIF is induced in mononuclear cells by OK-432 not only in vitro but also in vivo and plays an important role in inhibition of tumor growth in cancer patients.