Primary culture of capillary endothelium from rat brain

Summary To provide an in vitro system for studies of brain capillary function we developed a method for culture of brain capillary endothelial cells. Capillaries were isolated from rat brain and enzymatically treated to remove the basement membrane and contaminating pericytes. Subsequent Percoll gradient centrifugation resulted in a homogeneous population of capillary endothelial cells that attached to a collagen substrate and incorporated [³H]thymidine. Evidence for the endothelial nature of these cells was provided by the presence of Factor VIII antigen and angiotensin converting enzyme activity and by the failure of platelets to adhere to the cell surface. In addition, the cells were joined together by tight junctions. Thus, primary cultures of these cells retained both endothelial and blood-brain barrier features. This study was supported by the National Foundation-March of Dimes and by Grants HL-25492 and ES-02380 from the National Institutes of Health. J. S. W. is the recipient of a Research Career Development award (NS-00443) and J. B. P. is the recipient of a Teacher-Investigator award (1P01-NS15655).     

Primary culture of capillary endothelium from rat brain

To provide an in vitro system for studies of brain capillary function we developed a method for culture of brain capillary endothelial cells. Capillaries were isolated from rat brain and enzymatically treated to remove the basement membrane and contaminating pericytes. Subsequent Percoll gradient centrifugation resulted in a homogeneous population of capillary endothelial cells that attached to a collagen substrate and incorporated [3H]thymidine. Evidence for the endothelial nature of these cells was provided by the presence of Factor VIII antigen and angiotensin converting enzyme activity and by the failure of platelets to adhere to the cell surface. In addition, the cells were joined together by tight junctions. Thus, primary cultures of these cells retained both endothelial and blood-brain barrier features.     

大蒜细胞悬浮培养生产SOD的初步放大

研究了大蒜细胞在发酵罐培养过程中pH变化、细胞生长、SOD合成及培养基中各种基质的消耗规律。结果发现,大蒜细胞发酵罐中悬浮培养的pH变化趋势为先降后升,波动范围为4 25～5 37,获得最大生物量和SOD总酶活分别为16 3gDW/L和7 72×104U/L,相应为摇瓶培养的73 69%和71 35%。同摇瓶培养相比,发酵罐培养基中各种基质消耗出现滞后现象,且利用效率偏低。     

Host diet as a determinant of parasite growth, reproduction and survival

Changes have been observed in the biology of protozoan and helminth parasites of small mammals during a variety of experimental nutritional manipulations ranging from deficiency in a specific nutrient to the general withholding of food from the host. Commonly observed effects include retardations in parasite growth rate, gametogenesis, fecundity, and asexual multiplication. The duration of patency and of the association of a parasite with its host have also been observed to be curtailed. The nutritional responses of parasites during host hibernation require investigation and much research will be needed to explain how perturbations in host dietary composition and intake may lead to the observed effects. Care should be exercised over applying the results from experimental studies to naturally occurring infections, but the experiments are justified because they indicate potential effects, if not their biological significance, and because causation can be determined.     

Free radical production in aortic rings from rats fed a fish oil-rich diet

To study the effect of the degree of unsaturation of dietary fatty acids on the production of free radicals and on the vascular smooth muscle tone in rings of the aorta, Sprague-Dawley rats were fed a semipurified diet containing 5% lipids from either corn oil (CO) or menhaden oil (MO) for 8 wk. The MO diet did not change the basal or NADPH-dependent superoxide anion (O2-*) release. There were no significant differences in phenylephrine-induced contractions between the two groups in intact rings. However, these contractions increased in endothelium-intact aortic rings from the MO group after addition of the nitric oxide (*NO) synthase inhibitor NG-nitro-L-arginine and in endothelium-denuded rings, both indicating a greater endothelial basal *NO production in rats fed with the MO diet. Endothelium-dependent relaxations in response to acetylcholine were more prominent in rings from the MO group. These differences were not due to an increased smooth muscle response to.NO, because relaxations were the same using an exogenous *NO donor. Our results indicate that dietary MO did not modify O2-* release by the vessel wall or relaxation due to the cyclooxygenase pathway, but it potentiated endothelial production of *NO.     

Dilution rate as a determinant of mycelial morphology in continuous culture

The morphology of mycelial fungi in liquid culture effects culture rheology and this in turn may affect product yield. It is therefore important to understand how environmental factors influence mycelial morphology and this paper describes the effect of dilution rate on two strains of Fusarium graminearum, the relatively sparsely branched parental strain (A3/5) and a relatively highly branched "colonial" variant (C106). At any given dilution rate, the concentration of mycelial fragments present at steady state of both strains remained approximately constant with time, suggesting that mycelial fragmentation occurred in a regular manner. However, for both strains fragment concentration decreased with increasing dilution rate. The strains had a similar morphology at a dilution rate of 0.07 h(-1). The length of the hyphal growth unit of A3/5 increased with increase in dilution rate, while that of C106 decreased with increase in dilution rate. At all dilution rates, C106 produced up to ten times more macroconidia than A3/5.     

Phospholamban: a major determinant of the cardiac force-frequency relationship

The cardiac force-frequency relationship has been known for over a century, yet its mechanisms have eluded thorough understanding. We investigated the hypothesis that phospholamban, a potent regulator of the sarco(endo)plasmic reticulum Ca(2+)-ATPase (SERCA), determines the cardiac force-frequency relationship. Isolated left ventricular papillary muscles from wild-type (WT) and phospholamban knockout (KO) mice were stimulated at 2 to 6 Hz. The force-frequency relationship was positive in WT but negative in KO muscles, i.e., it was inverted by ablation of phospholamban (P < 0.01, n = 6 mice). From 2 to 6 Hz, relaxation accelerated considerably (by 10 ms) in WT muscles but only minimally (by 2 ms) in KO muscles (WT vs. KO: P < 0. 0001, n = 6). To show that the lack of frequency potentiation in KO muscles was not explained by the almost maximal basal contractility, twitch duration was prolonged in six KO muscles with the SERCA inhibitor cyclopiazonic acid to WT values. Relaxation still failed to accelerate with increased frequency. In conclusion, our results clearly identify phospholamban as a major determinant of the cardiac force-frequency relationship.     

Primary cell culture from gill explants of rainbow trout

Primary cultures of gill cells were initiated from gill filament explants of rainbow trout, Oncorhynchus mykiss . The explants were cultured in Leibovitz l -15 medium with 5, 10 or 20% foetal calf serum (FCS) and l -glutamine. The attachment efficiency was serum-dependent though increased FCS concentration did not stimulate further outgrowth of cells. The explants produced cell outgrowth 24 h after attachment as a sheet of cells which exhibited characteristics of gill pavement epithelial cells as indicated by surface microridges revealed by scanning electron micrographs. There was high proliferation for the first 14 days then a stable plateau for 30 days followed by a decline phase from 45 days. Following removal of cells, the explants produced further cell outgrowth which was especially active at the proliferation phase (14 days). Removal of these cells caused the explants to produce a further proliferation of cells reaching confluence in 10–14 days. After the third cell removal cell outgrowth from explants showed migratory activity but did not develop to resemble gill epithelial cells. The use of gill explants to establish primary cultures of fish gill cells has advantages which include longevity of the culture and successive proliferations from explants which could provide a useful tool for the investigation of long-term processes in cellular biology and reduce the number of culture preparations.     

The dopamine of the rat mammotroph in cell culture as a model for drug action

Dopamine can act directly on pituitary cells to inhibit prolactin release. This action can be blocked by dopamine receptor blocking drugs such as haloperidol, sulpiride and other neuroleptic agents. Comparison of the properties of the mammotroph dopamine receptor with the adenylate cyclase linked dopamine receptor of the limbic forebrain reveals some obvious differences. For example, dopamine receptor stimulants such as S-584 and lergotrile mesylate are inactive in stimulating the adenylate cyclase preparations but are potent in inhibiting pituitary prolactin secretion. Such inhibition of prolactin secretion can be reversed by haloperidol or sulpiride. In contrast to these observations, sulpiride does not block dopamine stimulation of cAMP formation. In addition, dopamine, apomorphine or lergotrile mesylate have no effect on a pituitary adenylate cyclase preparation and dopamine fails to elevate cAMP in the intact cells in culture. Despite the similarity between these two dopamine sensitive systems with respect to a number of agonists and antagonists, the exceptions described suggest that the pituitary system with further study may offer some greater reliability as a predictive test for clinically useful agents. These results also suggest that the receptors for dopamine, like that for norepinephrine, are of two types, only one of which is coupled to adenylate cyclase.     

大鼠细小肺动脉平滑肌细胞原代培养和鉴定方法的研究

目的：建立一种重复性好、培养周期短及传代次数多的大鼠细小肺动脉平滑肌细胞（PASMCs）培养方法。方法：在无菌条件下,分离雄性SD大鼠肺细小动脉,剥离外膜和剔除内皮细胞,经胶原酶I消化,培养PASMCs。0.4%台盼蓝染色测定细胞活力;倒置相差显微镜观察;免疫细胞化学法和免疫荧光染色法,进行平滑肌α-肌动蛋白（α-SMactin）鉴定。结果：形态学观察、免疫细胞化学法及免疫荧光染色法鉴定表明培养细胞为PASMCs;细胞存活率在96.5%以上;原代培养后4～7d即可传代,并且生长特点、细胞形态不易发生改变。结论：采用胶原酶I消化法培养PASMCs,方法简单、酶消化时间易控制、培养周期短、重复性好,培养的原代PASMCs具有数量多和生长迅速的特点。     

Primary cell culture from the nose of a marine organism, the banded houndshark, Triakis scyllium

Animal cells have been widely and continuously studied due to their usefulness in biological researches and production of pharmacological agents as well as food additives. Nevertheless, there are several problems such as the existence of viruses which introduce the possibility of mammalian-infection. In this reason, recently, animal cells derived from marine organisms have emerged to overcome these problems by many researches. However, marine animal-derived cells have not yet been well developed. The banded hound shark occupies an important position in an evolutionary perspective and currently a few biological substances have been used for medicines or food additives such as shark squalene and cartilage extract. In this study, primary cells were cultivated from a banded hound shark nose containing many extracellular matrix (ECM) materials. After successful isolation of one type of primary nasal cell, we optimized culture conditions including coating materials, media composition, serum concentrations and pH. Additionally, these cells demonstrated proliferation ability in vitro, generating secretions of collagen and sulfated polysaccharides. The cultivated primary cells are useful in the study of cellular biology and may be used to create a variety of ECM-originated bioactive substances.     

The induction of ethylene production from pear cell culture by cell wall fragments

Macerase, a pectinase-containing enzyme mixture, was used to digest cell walls isolated from cultured pear cells. Following digestion, the reaction mixture was boiled to inactivate enzymes. Addition of soluble aliquots of the mixture to suspension cultures of pear cells led to a rapid and transient production of ethylene by the cells.     

Apoptosis and necrosis: intracellular ATP level as a determinant for cell death modes

Apoptosis and necrosis are two distinct modes of cell death with respective morphological characteristics. However, apoptosis and some forms of necrosis must share common steps since both modes of cell death can be suppressed by the anti-apoptotic Bcl-2 protein and caspase inhibitors. Intracellular ATP levels have been implicated both in vitro and in vivo as a determinant of the cell's decision to die by apoptosis or necrosis.