Establishment of the Embryo-derived Stem (ES) Cell Lines from Mouse Blastocysts: Effects of the Feeder Cell Layer.

The ES ceii lines are embryo-derived stem cell lines directly isolated from the inner cell mass of mouse blastocysts using feeder cell layer. We have established a number of ES cell lines from 129 or C57BL/6 strain mice by using the feeder layer of the STO cells (from ATCC) or the primary embryonic fibroblasts, which was obtained by trypsinizing the 16-day-old BALB/c mouse fetus. The ES cell lines established on the STO feeder layer showed differentiation into various tissues in solid tumors when injected into syngenic mice. Karyotype was, however, nearly tetraploid. The ES cell lines established on the primary fibroblasts exhibited differentiation into larger variety of tissues in solid tumors. Karyotype was almost diploid and majority of the cells kept normal set of chromosomes in G-banding. We conclude that the primary fibroblasts are better feeder layer than the STO cells for establishment and maintenance of the ES cell lines.     

Novel method for the establishment of cardiomyocytes derived from rat embryonic stem cells in vitro

Cardiomyocytes were differentiated from embryonic stem cells (ES cells) derived from spontaneous dwarf rats (SDR) in vitro. The two-cell stage embryos were cultured in alpha-MEM supplemented with 10% fetal calf serum and embryotrophic factors (ETF). ETF were isolated from the conditioned medium of the SKG-II-SF cell line derived from a human uterine cervical epidermoid carcinoma. When two-cell stage rat embryos developed into tri-laminal germ disc embryos (flat type), colonies composed of small round cells were isolated by the colonial isolation method and used to establish an ES cell line. The ES cells were cultured in DMEM/F12 medium supplemented with 10% fetal calf serum and 1 ng/mL of leukemia inhibitory factor. Embryoid bodies were made by the hanging-drop method using 1 x 10(7) ES cells/mL. The embryoid bodies differentiated and grew to form an embryonic monster in ETF-supplemented medium using Rose's circumfusion apparatus for about 1 month. The anlages of beating hearts in embryonic monsters were collected using a glass capillary. The anlages were cut into small pieces using razor blades and dissociated with trypsin-EDTA/PBS(-) solution. The resultant single cells were cultured in growth medium and used to establish a myocardial cell line. The cell line was subcultured for more than 25 passages and confirmed as showing the morphological and ultrastructural characteristics of cardiomyocytes.     

Transplanted embryonic stem cells following mouse myocardial infarction inhibit apoptosis and cardiac remodeling

We have previously shown that mouse embryonic stem (ES) cells transplanted following myocardial infarction (MI) differentiate into the major cell types in the heart and improve cardiac function. However, the extent of regeneration was relatively meager compared with the observed functional improvement. Therefore, we hypothesize that mechanisms in addition to regeneration contribute to the functional improvement from ES cell therapy. In this study, we examined the effect of mouse ES cells transplanted post-MI on cardiac apoptosis, fibrosis, and hypertrophy. MI was produced by left coronary artery ligation in C57BL/6 mice. Two different mouse ES cell lines, expressing enhanced green fluorescent protein and beta-galactosidase, respectively, were tested. Post-MI intramyocardial injection of 3 x 10(4) ES cells was compared with injection of medium alone. Terminal deoxynucleotidyl nick end labeling (TUNEL), immunofluorescence, and histology were used to examine the effect of transplanted ES cells on apoptosis, fibrosis, and hypertrophy. Two weeks post-MI, ES cell-transplanted hearts exhibited a significant decrease in TUNEL-stained nuclei (mean +/- SE; MI+medium = 12 +/- 1.5%; MI+ES cells = 6.6 +/- 1%, P < 0.05). TUNEL-positive nuclei were confirmed to be apoptotic by colabeling with a caspase-3 antibody. Cardiac fibrosis was 57% less in the MI+ES cell group compared with the MI + medium group (P < 0.05) as shown with Masson's trichrome staining. Picrosirius red staining confirmed a decreased amount of collagen present in the MI+ES cell group. Cardiomyocyte hypertrophy was significantly decreased following ES cell transplantation compared with medium control animals. In conclusion, transplanted mouse ES cells in the infarcted heart inhibit apoptosis, fibrosis, and hypertrophy, thereby reducing adverse remodeling.     

Generation of embryoid bodies from mouse embryonic stem cells cultured on STO feeder cells

Embryoid bodies, which are similar to post-implantation egg-cylinder stage embryos, provide a model for the study of embryo development and stem cell differentiation. We describe here a novel method for generating embryoid bodies from murine embryonic stem (ES) cells cultured on the STO feeder layer. The ES cells grew into compact aggregates in the first 3 days of coculture, then became simple embryoid bodies (EBs) possessing primitive endoderm on the outer layer. They finally turned into cystic embryoid bodies after being transferred to Petri dishes for 1-3 days. Evaluation of the EBs in terms of morphology and differentiating potential indicates that they were typical in structure and could generate cells derived from the three germ layers. The results show that embryoid bodies can form not only in suspension culture but also directly from ES cells cultured on the STO feeder layer.     

5个品系小鼠胚胎干细胞系建立的方法学比较

以70％的大鼠心脏细胞条件培养基(RH-CM)为培养液,以小鼠胚胎成纤维细胞(PMEF)为饲养层,采用添加1％鸡血清的消化液和“连续离散法”作为小鼠Es细胞建系的改进方法,比较了5个品系小鼠ES细胞系建立的特点。与常规方法相比,3个近交系小鼠129／ter、C57BL/6J、BALB／c的ES细胞建系率分别由11．8％、3．7％和2．9％提高到33．3％、13．3％和19．4％,差异十分显著;直接采用改进的方法建立KM和ICR小鼠ES细胞系,建系率分别达12％和42．1％。讨论了ICM增殖的时间,即离散时机对ES集落形成及建系率的影响,结果显示：129／ter、C57BL/6J、BALB／c、KM和ICR小鼠品系ICM适宜的离散时机分别为增殖4～6d、3～3．5d、4d、4～5d和4～5d;同时,讨论了不同ES细胞建系所需最适宜的消化液浓度,其中BALB／c小鼠的ES细胞对高浓度的消化液十分敏感,0．05％Trypsin-0．008％EDTA是其比较理想的离散浓度。设计了两种离散方法,即“一次离散法”和“连续离散法”,用来离散增殖的ICM和ICM离散后出现的ES集落,结果表明：后者在建系过程中的作用明显优于前者。RH-CM与添加uF的常规ES细胞培养基相比,不但具有显著抑制小鼠ES细胞分化、维持其二倍体核型的作用,而且明显促进ES细胞的贴壁生长。新建细胞系鉴定结果表明,这一改进方法有效地维持了其作为多能性胚胎干细胞的一系列特征。     

Proteome analysis of conditioned medium from mouse embryonic fibroblast feeder layers which support the growth of human embryonic stem cells

Human embryonic stem (ES) cells are pluripotent cells with the potential to differentiate into a variety of cell types, which could be used for cell transplantation therapies as well as drug discovery studies. However, the large-scale culture of undifferentiated human ES cells is currently limited by their dependency on mouse embryonic fibroblast feeder layers. The proteomics approach was employed to characterize the environment that supports the growth of undifferentiated human ES cells and to identify factors critical for their independent growth. Conditioned medium from mouse embryonic fibroblast feeder layers, STO cell line, was concentrated and subjected to analyses by two-dimensional electrophoresis mass spectrometry. In total, 136 unique protein species were identified which included some that are known to participate in cell growth and differentiation, extracellular matrix formation and remodeling, in addition to the unexpected but interesting finding of many nominally intracellular proteins. This approach has thus revealed the complexity of the environment provided by the feeder cells and provides a useful starting point for future studies. Moreover, candidates from the initial list of identified proteins can be further investigated for their effects on the growth and differentiation of human ES cells in a defined culture environment.     

MicroRNA-1 transfected embryonic stem cells enhance cardiac myocyte differentiation and inhibit apoptosis by modulating the PTEN/Akt pathway in the infarcted heart

microRNAs (miRs) have emerged as critical modulators of various physiological processes including stem cell differentiation. Indeed, miR-1 has been reported to play an integral role in the regulation of cardiac muscle progenitor cell differentiation. However, whether overexpression of miR-1 in embryonic stem (ES) cells (miR-1-ES cells) will enhance cardiac myocyte differentiation following transplantation into the infarcted myocardium is unknown. In the present study, myocardial infarction (MI) was produced in C57BL/6 mice by left anterior descending artery ligation. miR-1-ES cells, ES cells, or culture medium (control) was transplanted into the border zone of the infarcted heart, and 2 wk post-MI, cardiac myocyte differentiation, adverse ventricular remodeling, and cardiac function were assessed. We provide evidence demonstrating enhanced cardiac myocyte commitment of transplanted miR-1-ES cells in the mouse infarcted heart as compared with ES cells. Assessment of apoptosis revealed that overexpression of miR-1 in transplanted ES cells protected host myocardium from MI-induced apoptosis through activation of p-AKT and inhibition of caspase-3, phosphatase and tensin homolog, and superoxide production. A significant reduction in interstitial and vascular fibrosis was quantified in miR-1-ES cell and ES cell transplanted groups compared with control MI. However, no statistical significance between miR-1-ES cell and ES cell groups was observed. Finally, mice receiving miR-1-ES cell transplantation post-MI had significantly improved heart function compared with respective controls (P < 0.05). Our data suggest miR-1 drives cardiac myocyte differentiation from transplanted ES cells and inhibits apoptosis post-MI, ultimately giving rise to enhanced cardiac repair, regeneration, and function.     

Studies on Two Factors Affecting the Production of Germline Chimeras by Using HM 1 Cells

ＥＳ细胞系统与基因定位致变相结合,进行基因敲除（ｋｎｏｃｋｏｕｔ）已成为研究基因在生物体内功能的重要手段。在ＥＳ细胞系的建立、外源基因导入ＥＳ细胞、种系嵌合鼠的获得等三个重要环节中,种系嵌合鼠的获得是最关键的一环。由于ＥＳ细胞系统技术复杂、实验条件要求很高,尽管国际上已报导了上百例的基因敲除（ｋｎｏｃｋｏｕｔ）实验,但是到目前为止,我国还无一例在国内条件下获得种系嵌合鼠的正式报道。本研究对影响种系嵌合鼠获得的两种因素（饲养层细胞、受体胚胎种类）进行了比较研究,成功地获得了种系嵌合鼠。将ＨＭ１细胞在ＳＴＯ或ＭＥＦ培养层上培养至２１３３代,注射到不同小鼠的囊胚里,经过恢复培养,移植到假孕的昆明白雌鼠子宫内。由于ＨＭ１细胞来源于粟色的的１２９品系,而胚胎供体鼠的毛色为黑或白色,仔鼠出生一周后即可辨别是否为毛色嵌合鼠。用成年嵌合鼠与其受体胚胎相同品系的小鼠交配,进行种系嵌合鼠鉴定。曾有报导：ＳＴＯ培养层会导致ＥＳ细胞发生核变。我们改用ＭＥＦ培养层,获得嵌合鼠的比率高达４８．６％（Ｔａｂｌｅ１）。不同小鼠胚胎之间存在差异,Ｃ５７ＢＬ／６Ｊ、ＩＣＲ和昆明白三者提供的受体胚胎产生嵌合鼠的比率分别为７１．４％、５５％     

On the isolation of embryonic stem cells: Comparative behavior of murine, porcine and ovine embryos

The efficiency of isolation and the characteristics of embryo-derived cell lines from murine, porcine, and ovine embryos cultured on STO feeders or homologous embryonic fibroblasts (HEF) feeders were compared. While murine isolated ICM or intact embryos plated on STO or HEF feeders gave rise to cell lines with embryonic stem cell-like (ES-like) morphology, ovine embryos did not. Cell lines with ES-like morphology were isolated from porcine intact embryos and isolated ICM when plated on STO feeders but not when plated on HEF. Neither murine nor porcine ES-like cell lines expressed cytokeratin 18 or vimentin. Unlike murine ES-like cell lines, porcine ES-like cells did not undergo observable differentiation in vitro or in vivo. Cell lines with epithelial-like morphology were isolated from porcine and ovine embryos. Both porcine and ovine epithelial-like cell kines expressed cytokeratin 18. When induced to differentiate in vitro, porcine and ovine epithelial-like cell lines formed vesicular structures. Electron microscopy revealed that the porcine vesicles were composed of polarized epithelial cells, each with a basally-located nucleus and an apical border containing numerous microvilli with a well organized microfilament core. The results of this study show that conditions which allow isolation of ES cells from murine embryos allow the isolation of porcine embryo-derived cell lines sharing some, but not all, the characteristics of murine ES cells.     

WNT/beta-catenin pathway up-regulates Stat3 and converges on LIF to prevent differentiation of mouse embryonic stem cells

Embryonic stem (ES) cells rely on growth factors provided by feeder cells or exogenously to maintain their pluripotency. In order to identify such factors, we have established sub-lines of STO feeder cells which exhibit variable ability in supporting ES cell self-renewal. Functional screening identifies WNT5A and WNT6 as STO cell-produced factors that potently inhibit ES cell differentiation in a serum-dependent manner. Furthermore, direct activation of beta-catenin without disturbing the upstream components of the WNT/beta-catenin pathway fully recapitulates the effect of WNTs on ES cells. Importantly, the WNT/beta-catenin pathway up-regulates the mRNA for Stat3, a known regulator of ES cell self-renewal in the mouse. Finally, LIF is able to mimic the serum effect to act synergistically with WNT proteins to inhibit ES cell differentiation. Therefore, our study reveals part of the molecular mechanisms by which the WNT/beta-catenin pathway acts to prevent ES cell differentiation through convergence on the LIF/JAK-STAT pathway at the level of STAT3.     

Mouse embryonic stem cells and preimplantation embryos require signaling through the phosphatidylinositol 3-kinase pathway to suppress apoptosis

Whereas most mammalian cells require extracellular signals to suppress apoptosis, preimplantation embryos can survive and develop to the blastocyst stage in defined medium without added serum or growth factors. Since cells of these embryos are capable of undergoing apoptosis, it has been suggested that their lack of dependence upon exogenous growth factors results from the production of endogenous growth factors that suppress apoptosis by an autocrine signaling mechanism. In the present study, we have examined the growth factor requirements and intracellular signaling pathways that suppress apoptosis in both mouse preimplantation embryos and embryonic stem (ES) cells, which are derived from the blastocyst inner cell mass. Cultured ES cells, in contrast to intact embryos, required serum growth factors to prevent apoptosis. Suppression of ES cell apoptosis by serum growth factors required the phosphatidylinositol 3-kinase (PI 3-kinase) signaling pathway, since apoptosis was rapidly induced by inhibition of PI 3-kinase with LY294002. In contrast, inhibition of MEK/ERK signaling with U0126 or of mTOR with rapamycin had no detectable effect on ES cell survival. Thus, like most mammalian cells, the survival of ES cells is mediated by growth factor stimulation of PI 3-kinase signaling. Treatment with LY294002 (but not with U0126 or rapamycin) similarly induced apoptosis of mouse blastocysts in serum-free medium, indicating that intact preimplantation embryos are also dependent upon PI 3-kinase signaling for survival. These results demonstrate that PI 3-kinase signaling is required to suppress apoptosis of both ES cells and intact preimplantation embryos, consistent with the hypothesis that survival of preimplantation embryos is maintained by endogenous growth factors that stimulate the PI 3-kinase pathway.     

K-ras proto-oncogene exhibits tumor suppressor activity as its absence promotes tumorigenesis in murine teratomas

Ras proteins transduce signals from membrane-bound receptors via multiple downstream effector pathways and thereby affect fundamental cellular processes, including proliferation, apoptosis, and differentiation. K-ras activating mutations play a key role in neoplastic progression and are particularly prevalent in colorectal, pancreatic, and lung cancers. The present study addressed whether the K-ras proto-oncogene displays a tumor suppressor function by comparative analysis of mouse teratomas derived from wild-type embryonic stem (ES) cells, K-ras null (K-ras(-/-)) ES cells, and K-ras(-/-) ES cells that stably reexpress either wild-type K-ras(gly12) or oncogenic K-ras(val12). K-ras(-/-) and K-ras(val12) teratomas were significantly larger than teratomas that expressed wild-type K-ras, contained significantly higher proportions of undifferentiated embryonal carcinoma-like cells, and showed significantly increased mitotic activity. However, K-ras(val12) but not K-ras(-/-) teratomas exhibited significantly higher levels of apoptosis than wild-type teratomas. K-ras(-/-) and K-ras(val12) ES cells showed a higher capacity for stem cell self-renewal in vitro compared with wild-type ES cells, and reexpression of K-ras(gly12) in K-ras(-/-) ES cells restored the K-ras(-/-) phenotype to wild-type values. Thus, in view of evidence that tumors can derive from tissue stem cells and that tumors harbor "cancer stem cells," aberrant K-ras expression could promote neoplastic progression by increasing their capacity for self-renewal.     

Regulation of apoptosis during neuronal differentiation by ceramide and b-series complex gangliosides

Lipid analysis of gestational day E14.5 mouse brain revealed elevation of ceramide to a tissue concentration that induced apoptosis when added to the medium of neuroprogenitor cells grown in cell culture. Elevation of ceramide was coincident with the first appearance of b-series complex gangliosides (BCGs). Expression of BCGs by stable transfection of murine neuroblastoma (F-11) cells with sialyltransferase-II (ST2) resulted in a 70% reduction of ceramide-induced apoptosis. This was most likely due to an 80% reduced expression of prostate apoptosis response-4 (PAR-4). PAR-4 expression and apoptosis were restored by preincubation of ST2-transfected cells with N-butyl deoxinojirimycin (NB-DNJ) or PD98059, two inhibitors of ganglioside biosynthesis or p42/44 mitogen-activated protein (MAPK) kinase, respectively. In sections of day E14.5 mouse brain, the intermediate zone showed intensive staining for complex gangliosides, but only low staining for apoptosis (TUNEL) and PAR-4. Apoptosis and PAR-4 expression, however, were elevated in the ventricular zone which only weakly stained for complex gangliosides. Whole cell patch clamping revealed a 2-fold increased calcium influx in ST2-transfected cells, the blocking of which with nifedipine restored apoptosis to the level of untransfected cells. In serum-free culture, supplementation of the medium with IGF-1 was required to maintain MAPK phosphorylation and the anti-apoptotic effect of BCG expression. BCG-enhanced calcium influx and the presence of insulin-like growth factor-1 may thus activate a cell survival mechanism that selectively protects developing neurons against ceramide-induced apoptosis by up-regulation of MAPK and reduction of PAR-4 expression.     

Initial culture behaviour of rat blastocysts on selected feeder cell lines

To increase our understanding of rat embryos in culture and to attempt the isolation of blastocyst-derived cell lines, we examinated the initial growth behaviour of rat blastocysts from four strains of rat on four different feeder cell layers. The feeders used were a continuous cell line of murine embryonic fibroblasts (STO), primary mouse (MEF) or primary rat (REF) embryonic fibroblasts, and a continuous cell line of rat uterine epithelial cells (RUCs). A medium that gave optimum plating efficiencies for murine ES cells was used in the rat embryo culture. Each culture system allowed hatching and attachment of the blastocysts, that is, the behaviour was similar on each feeder and each strain for the first 2 days in culture. Subsequently, there was a rapid differentiation of the Inner Cell Mass (ICM) cells on fibroblastic feeder cell layers (STO > MEF > REF), and this was generally complete after 3–6 days in primary culture. On RUCs, the ICM was found to increase in size without differentiation up to and including day 4 and in some cases longer. Embryo-derived cells were obtained by disaggregating and passaging ICMs on REF and RUC feeders. Rounded, refractile, and epithelial-like cells were isolated on REF and colonies of ES-like cells on the RUCs. The ES-like cells were positive for expression of alkaline phosphatase and stage-specific embryonic-antigen 1. This is an important first step towards the derivation and culture of pluripotent ES cells from the rat. © 1995 Wiley-Liss, Inc.     

一种利用STO饲养层细胞制备拟胚体的新方法

建立了一种利用STO饲养层细胞制备拟胚体的新方法。该方法选用生长至80%饱和密度的STO细胞,经丝裂霉素C(10 mg/ml)处理4 h后以8×104 cm-2的密度接种培养12 h,制备饲养层,再将ES-D3细胞以1×104 cm-2的密度接种其上,首先用含mLIF的DMEM培养液培养24 h,再更换拟胚体诱导培养液,5～9天后获得了各成熟阶段的拟胚体。形态结构和分化潜能等研究表明,该方法制备的拟胚体结构典型,具有产生3个胚层谱系来源的功能细胞的潜能。与传统拟胚体制作方法如悬滴培养法相比,具有操作简便,拟胚体形成率高,重复性好等优点,是开展哺乳动物早期胚胎发育和干细胞分化研究的理想工具。     

Factors released from embryonic stem cells inhibit apoptosis of H9c2 cells

Our recent study (Singla DK, Hacker TA, Ma L, Douglas PS, Sullivan R, Lyons GE, Kamp TJ, J Mol Cell Cardiol 40: 195-200, 2006) suggests that transplanted embryonic stem (ES) cells subsequent to myocardial infarction differentiate into the major cell types in the heart and improve cardiac function. However, the extent of regeneration is relatively meager compared with the observed functional improvement. The mechanisms underlying their improved function are completely unknown. In this report, we provide evidence using a cell culture model system for novel mechanisms that involve the release of cytoprotective, anti-apoptotic factor(s) from ES cells and inhibit H(2)O(2)-induced apoptosis in the rat cardiomyocyte-derived cell line H9c2. Conditioned medium (CM) from growing mouse ES cells treated with and without H(2)O(2) was generated. Apoptosis was induced after exposure to H(2)O(2) in H9c2 cells for 2 h followed by replacement with fresh cell culture or ES cell-CM. After 24 h, H9c2 cells treated with both ES cell-CMs demonstrated significantly decreased apoptosis, as determined by terminal deoxynucleotidyl transferase dUTP-mediated nick-end labeling staining, apoptotic ELISA, caspase-3 activity, and DNA ladder. Next, using Luminex technology, we examined the presence of antiapoptotic proteins cystatin c, osteopontin, and clusterin and anti-fibrotic, tissue inhibitor of metalloproteinase-1 (TIMP-1) in both ES cell-CMs. The levels of released factors were 2- to 170-fold higher than those in H9c2 cell-CM. Antiapoptotic effects of ES cell-CM were significantly inhibited with TIMP-1 antibody, suggesting that TIMP-1 is an important factor to inhibit apoptosis. Furthermore, we used CM from an TIMP-1-overexpressing cell line and demonstrated that H(2)O(2)-induced apoptosis in the H9c2 cells was significantly inhibited. These observations demonstrate that factors released from ES cells contain antiapoptotic factors and that the effects are mediated by TIMP-1. Moreover, these findings suggest that released factors might be useful for therapeutic applications in ischemic heart disease as well as for many other diseases.     

Disruption of Smad5 gene induces mitochondria-dependent apoptosis in cardiomyocytes

Our previous studies have shown that SMAD5, an important intracellular mediator of transforming growth factor beta (TGF-beta) family, is required for normal development of the cardiovascular system in vivo. In the current study, we reported that the lack of the Smad5 gene resulted in apoptosis of cardiac myocytes in vivo. To further investigate the mechanism of the Smad5 gene in cardiomyocyte apoptosis, the embryonic stem (ES) cell differentiation system was employed. We found that the myotubes that differentiated from the homozygous Smad5ex6/ex6 mutant ES cells underwent collapse and degeneration during the late stages of in vitro differentiation, mimicking the in vivo observation. By electron microscopy, abnormal swollen mitochondria were observed in cardiomyocytes both from Smad5-deficient embryos and from ES-differentiated cells. There was also a significant reduction in mitochondrial membrane potential (Deltapsi m) and a leakage of cytochrome c from mitochondria into the cytosol of myocytes differentiated from Smad5 mutant ES cells. The expression of p53 and p21 was found to be elevated in the differentiated Smad5 mutant myocytes, and this was accompanied by an up-regulation in caspase 3 expression. These results suggest that the Smad5-mediated TGF-beta signals may protect cardiomyocytes from apoptosis by maintaining the integrity of the mitochondria, probably through suppression of p53 mediated pathways.     

Abeta mediated diminution of MTT reduction--an artefact of single cell culture?

The 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl-tetrazoliumbromide (MTT) reduction assay is a frequently used and easily reproducible method to measure beta-amyloid (Abeta) toxicity in different types of single cell culture. To our knowledge, the influence of Abeta on MTT reduction has never been tested in more complex tissue. Initially, we reproduced the disturbed MTT reduction in neuron and astroglia primary cell cultures from rats as well as in the BV2 microglia cell line, utilizing four different Abeta species, namely freshly dissolved Abeta (25-35), fibrillar Abeta (1-40), oligomeric Abeta (1-42) and oligomeric Abeta (1-40). In contrast to the findings in single cell cultures, none of these Abeta species altered MTT reduction in rat organotypic hippocampal slice cultures (OHC). Moreover, application of Abeta to acutely isolated hippocampal slices from adult rats and in vivo intracerebroventricular injection of Abeta also did not influence the MTT reduction in the respective tissue. Failure of Abeta penetration into the tissue cannot explain the differences between single cells and the more complex brain tissue. Thus electrophysiological investigations disclosed an impairment of long-term potentiation (LTP) in the CA1 region of hippocampal slices from rat by application of oligomeric Abeta (1-40), but not by freshly dissolved Abeta (25-35) or fibrillar Abeta (1-40). In conclusion, the experiments revealed a glaring discrepancy between single cell cultures and complex brain tissue regarding the effect of different Abeta species on MTT reduction. Particularly, the differential effect of oligomeric versus other Abeta forms on LTP was not reflected in the MTT reduction assay. This may indicate that the Abeta oligomer effect on synaptic function reflected by LTP impairment precedes changes in formazane formation rate or that cells embedded in a more natural environment in the tissue are less susceptible to damage by Abeta, raising cautions against the consideration of single cell MTT reduction activity as a reliable assay in Alzheimer's drug discovery studies.