Sub-lethal effect of ultraviolet radiation on the growth, intestinal adherence ability and cholesterol removal potentials of parent cells and subsequent sub-culturing of Lactobacillus acidophilus BT 1088 under conditions that mimic the human gastrointestinal tract

The aim of this study was to evaluate the sub-lethal effect of ultraviolet radiation (UV) on the cell growth, intestinal adherence ability and cholesterol removal potential of parent cells and the possible inheritance of such effects on subsequent sub-cultures of Lactobacillus acidophilus BT 1088 cells under conditions that mimic the human gastrointestinal tract. We found that UV decreased (P?<?0.05) growth of the parent cells immediately upon treatment (0 h), although an increase (P?<?0.05) in growth was observed at 8–24 h of fermentation compared to that of the control. The intestinal adherence ability of the parent cells decreased significantly by 15.62 % (P?<?0.05) compared to that of the control. Nevertheless, UV led to increased (>26.22 %; P?<?0.05) cholesterol removal from the parent cells, accompanied by an increased incorporation of cholesterol into the cellular membrane and an increased ratio of membrane cholesterol:phospholipids (C:P; P?<?0.05; 95 % confidence interval 8.71–121.95 %) in parent cells, compared to that of the control. Incorporated cholesterol was found in the interface of apolar and polar regions, polar heads and also apolar tails of phospholipids in the cellular membrane bilayer. However, such traits were not inherited by the treated cells in subsequent sub-cultures (first, second and third sub-culture). Our data suggest that UV could be a potential physical treatment to increase the cholesterol removal ability of parent cells without inducing permanent damage to the treated cells. UV treatment did not affect the intestinal adherence functionality of the treated cells in subsequent sub-cultures.     

Variation of Telomerase Activity and Morphology in Porcine Mesenchymal Stem Cells and Fibroblasts during Prolonged in vitro Culture

The purpose of this study was to examine the telomerase activity, population doubling time (PDT), morphological alterations, and the cell cycle status with activity of senescence-associated-ß-galactosidase in porcine mesenchymal stem cells (MSCs) and fibroblasts during an extended in vitro culture. MSCs and fibroblasts were isolated from bone marrow and ear skin of a miniature pig, respectively, and cultured up to 20 passages. The analysis was carried out in MSCs and fibroblasts at 1, 5, 10, 15, and 20 passages. Relative telomerase activity (RTA) levels were significantly (P < 0.05) higher in MSCs than in fibroblasts at all the passages. The PDT and cellular size slightly increased in MSCs at later passages. In contrast, fibroblasts had significantly (P < 0.05) increased PDT and cellular size, and the morphology revealed senescent-like abnormal type after passage 10. Further, the high incidence of ß-galactosidase stained cells was observed in fibroblasts compared to that of MSCs at passage 15, and cell cycle stage at G0 / G1 phase was significantly (P < 0.05) increased in the fibroblasts at 15 and 20 passages compared to that of MSCs. Based on these observations, we concluded that porcine MSCs possessed more tolerance against senescence and aging compared to fibroblasts following prolonged in vitro culture.     

Insulin secretion is highly sensitive to desorption of plasma membrane cholesterol

Cholesterol-rich clusters of SNARE (soluble NSF attachment protein receptor) proteins have been implicated as being important for exocytosis. Here we demonstrate the significance of cholesterol for normal biphasic insulin secretion in mouse beta cells by removal of cholesterol from the plasma membrane using methyl-beta-cyclodextrin (MBCD). Maximal inhibition of insulin secretion in static incubations was achieved using 0.1 mM MBCD. In in situ pancreatic perfusion measurements, both first and second phase insulin secretions were reduced by approximately 50% (P<0.05). This was accompanied by a reduced number of docked large dense core vesicles (LDCVs) (approximately 40%; P<0.01) and a reduced exocytotic response (>50%; P<0.01). Further, subcellular fractionations demonstrated movement of the synaptosomal protein of 25 kDa (SNAP-25) from the plasma membrane to the cytosol after MBCD treatment. The inhibitory actions of MBCD were counteracted by subsequent addition of cholesterol. We hypothesize that desorption of cholesterol leads to the disturbance of a basic exocytotic mechanism partly due to migration of SNAP-25, and we conclude that insulin secretion is highly sensitive to changes in plasma membrane cholesterol.     

Bioconversion of isoflavones and the probiotic properties of the electroporated parent and subsequent three subcultures of Lactobacillus fermentum BT 8219 in biotin-soymilk

This study was aimed at an evaluation of the potential inheritance of electroporation effects on Lactobacillus fermentum BT 8219 through to three subsequent subcultures, based on their growth, isoflavone bioconversion activities, and probiotic properties, in biotin-supplemented soymilk. Electroporation was seen to cause cell death immediately after treatment, followed by higher growth than the control during fermentation in biotin-soymilk (P<0.05). This was associated with enhanced intracellular and extracellular beta-glucosidase specific activity, leading to increased bioconversion of isoflavone glucosides to aglycones (P<0.05). The growing characteristics, enzyme, and isoflavone bioconversion activities of the first, second, and third subcultures of treated cells in biotin-soymilk were similar to the control (P>0.05). Electroporation affected the probiotic properties of parent L. fermentum BT 8219, by reducing its tolerance towards acid (pH 2) and bile, lowering its inhibitory activities against selected pathogens, and reducing its ability for adhesion, when compared with the control (P<0.05). The first, second, and third subcultures of the treated cells showed comparable traits with that of the control (P>0.05), with the exception of their bile tolerance ability, which was inherited to the treated cells of the first and second subcultures (P<0.05). Our results suggest that electroporation could be used to increase the bioactivity of biotin-soymilk via fermentation with probiotic L. fermentum BT 8219, with a view towards the development of functional foods.     

Adding cholesterol to the stallion sperm plasma membrane improves cryosurvival

Cryopreservation induces partially irreversible damage to equine sperm membranes. Part of this damage occurs due to membrane alterations induced by the membrane changing from the fluid to the gel-state as the temperature is reduced lower than the membrane transition temperature. One way to prevent this damage is to increase the membrane fluidity at low temperatures by adding cholesterol to the membrane. Different concentrations of cholesterol-loaded-cyclodextrins (CLC) were added to stallion sperm to determine the CLC concentration that optimizes cryosurvival. Higher percentages of motile sperm were maintained after thawing when 1.5 mg CLC was added to sperm from stallions whose sperm do not survive freezing well, compared to control sperm from those same stallions (67% vs. 50%; P<0.05). Addition of CLCs increased the percentages of membrane intact sperm surviving cryopreservation compared to untreated sperm for all stallions (P<0.05). The amount of cholesterol that incorporated into the membranes of the sperm cells increased in a polynomial fashion (R2=0.9978) and incorporated into all sperm membranes. In addition, there was a significant loss of cholesterol from sperm membranes after cryopreservation; however, addition of CLCs to sperm prior to cryopreservation maintained higher cholesterol levels in the sperm after freezing and thawing than untreated sperm (P<0.05). Addition of CLCs also resulted in more sperm binding to the zona pellucida of bovine oocytes after cryopreservation than control sperm (48 vs. 15; P<0.05). In conclusion, CLCs improved the percentage of post-thaw viability in equine sperm as well as increased the number of sperm that bind to zona pellucida. Addition of CLCs to stallion sperm prior to cryopreservation is a simple procedure that increases the cryosurvival of cells.     

Development of an attached strain from a continuous insect cell line

Summary A continuous attached cell strain has been developed from the IPRI-CF-124 line of the spruce budworm,Choristoneura fumiferana. This was done by discarding suspended cells at each passage, rinsing attached cells with 0.05% trypsin and using only the strongly attached cells for subculturing. The method is very effective in that the proportion of attached cells increased from 6% in the parent cell line to 97% in the new cell strain after 20 passages. The attachment and growth properties are stable after storage of cells in liquid nitrogen. The new cell strain is designated IPRI-CF-124T and has a population doubling time comparable to that of the parent cell line. Contribution No.: 329.     

6—DMAP和胚胎干细胞代数对异种重构卵体外发育的影响（简报）

The development of reconstructed oocytes and the survival rate of cloned animal were affected by many factors during nuclear transfer. The genetic constitution and the genetic state of donor nucleus were proposed to be primary factors, which affected the survival rate of cloned animal. In addition, the survival rate of cloned animal might be influenced by nuclear transfer technique itself and passages of donor cells as well as the activation methods of oocytes. We reconstructed oocytes with outbreeding Kunming albino mouse ES cells and enucleated rabbit oocytes, and analyzed the effects of the passages of ES cells and 6-DMAP on the development of interspecific reconstructed oocytes. The interspecific reconstructed ES-rabbit oocytes were activated either by combined two set electric pulses and 6-DMAP or by two set electric pulses alone. The rate of cleavage was significantly higher for the group (86.2%) treated with 6-DMAP than the group (64.2%, P < 0.05) treated with electric pulses only, and the rate of blastocysts was 17.0% and 13.4% respectively, which were not significantly different between two groups. When ES cells that had been passed for 24 and 14 generations were used as donors, the cleavage rates of the reconstructed oocytes were 88.5% and 82.1%, respectively (P > 0.05), and the rates of blastolation were 16.7% and 15.4%, respectively (P > 0.05). The results show that 6-DMAP increases the cleavage rate of reconstructed oocytes derived from ES cells, and affects slightly the developmental rate of blastocysts. There are no differences when high passage and low passage ES cells are used as nuclear donors.     

6-DMAP和胚胎干细胞代数对异种重构卵体外发育的影响(简报)

核移植技术已经广泛应用于动物克隆,但是克隆动物的成活率仍然很低。许多克隆胚胎死于妊娠期,少部分能发育到期,正常出生,但多数在出生后由于心肺和消化道的问题,很快就夭折,有些克隆动物有异常表型,如出生时体重和胎盘过大等。研究发现,在同种克隆动物实验中用胚胎干细胞(Embryonic stem cell,ES细胞)作为核供体,发育到期的克隆动物比例明显高于体细胞,并且用杂交一代的小鼠ES细胞为核供体,绝大多数克隆仔     

Variation of telomerase activity and morphology in porcine mesenchymal stem cells and fibroblasts during prolonged in vitro culture

The purpose of this study was to examine the telomerase activity, population doubling time (PDT), morphological alterations, and the cell cycle status with activity of senescence-associated-?-galactosidase in porcine mesenchymal stem cells (MSCs) and fibroblasts during an extended in vitro culture. MSCs and fibroblasts were isolated from bone marrow and ear skin of a miniature pig, respectively, and cultured up to 20 passages. The analysis was carried out in MSCs and fibroblasts at 1, 5, 10, 15, and 20 passages. Relative telomerase activity (RTA) levels were significantly (P?相似文献   

Induction of ABCA1 and ABCG1 expression by the liver X receptor modulator cineole in macrophages

We investigated the effect of cineole on the expression of genes related to reverse cholesterol transport and hepatic fatty acid metabolism. Cineole, a small aroma compound in teas and herbs, significantly stimulated the transactivation of liver X receptor modulator (LXR)-α and LXR-β. The mRNA and protein expression of LXRs and their target genes, including ABCA1 and ABCG1, was significantly increased in macrophages stimulated with cineole. This led to the subsequent removal of cholesterol from the cells. Interestingly, cineole showed tissue-selective LXR induction: hepatocytes stimulated with cineole showed significantly reduced expression of LXR-α and LXR-α-responsive genes, including FAS and SCD-1 (P <0.05). Accordingly, hepatocytes treated with cineole displayed reduced cellular lipid accumulation compared with control cells, as assessed by Oil Red O lipid staining and cholesterol quantification. These results suggest that cineole is a selective LXR modulator that regulates the expression of key genes in reverse cholesterol transport in macrophages without inducing lipogenesis in hepatocytes. This selective LXR modulator may have practical implications for the development of hypocholesterolemic or anti-atherosclerotic agents and also suggests.     

The fluidity of Chinese hamster ovary cell and bull sperm membranes after cholesterol addition

Cell plasma membrane fluidity is affected by membrane lipid and protein composition as well as temperature. Altering the cholesterol content of a membrane can change membrane fluidity at different temperatures and this may affect cell survival during cryopreservation. In these experiments, we examined the effect that adding cholesterol to the membranes of Chinese hamster ovary cells (CHO) and bull sperm had on cell plasma membrane fluidity and cell survival when cells were cooled to 5 degrees C or were cryopreserved. Cells were treated with 0, 1.5 or 5.0mg cholesterol-loaded cyclodextrin (CLC), stained with N-((4-(6-phenyl-1,3,5-hexatrienyl)phenyl)propyl)trimethylammonium-p-toluenesulfonate (TMAP-DPH) to evaluate membrane fluidity and with propidium iodide to evaluate cell viability, prior to analysis by flow cytometry at 23, 5 degrees C, and after cryopreservation. CHO cells exhibited a single cell population with all cells having similar membrane fluidity. Membrane fluidity did not change when temperature had been reduced and then returned to 23 degrees C (P<0.05), however, adding cholesterol to the cells induced membranes to become more rigid (P<0.05). Bull sperm samples consisted of two cell subpopulations, one having relatively higher membrane fluidity than the other, regardless of cholesterol treatment or temperature. In addition, cells possessing the highest membrane fluidity did not survive cooling or cryopreservation efficiently. CLC treatment did not significantly alter membrane fluidity after temperature changes, but did maintain higher percentages of spermatozoa surviving cooling to 5 degrees C and cryopreservation (P<0.05). In conclusion, adding cholesterol to cell resulted in detectable membrane fluidity changes in CHO cells and increased survival of bull sperm after cooling to 5 degrees C and after cryopreservation.     

Metabolism of benzo[A]pyrene and the related enzyme activities in hamster embryo cells.

The rate of metabolism of benzo[a]pyrene (BP) and changes in related enzyme activities in cultured hamster embryo cells during successive subculture were studied. The activity of aryl hydrocarbon hydroxylase (AHH) was the highest when embryo cells were first dispersed in tissue culture flasks and decreased during subsequent passages. On the other hand, UDP-glucuronyl transferase activity increased gradually during successive subculture. Treatment of the cells with 13 nmol/ml of benz[a]anthracene (BA) for 24 h increased the activity of AHH but not that of UDP-glucuronyl transferase. The metabolism of BP was measured in cells of the passages 1, 3 and 7; metabolism of BP was most efficient in cells in passage 3 and their formation of glucuronic acid conjugates of BP, one of the major metabolites found in the medium, was 3- and 10-fold more than those of cells in passages 1 and 7, respectively. Analysis of BP-metabolites extracted from the medium with ethylacetate showed that the main metabolites were 9,10-diol and 7,8-diol. Phenols and quinones were released by treatment of the medium with beta- glucuronidase and their amounts were larger than those of diols at all passages. These results show that in hamster embryo cells in early passage, BP is metabolized to conjugates of phenols with glucuronic acid.     

Mycoplasma contamination of murine embryonic stem cells affects cell parameters, germline transmission and chimeric progeny

Murine embryonic stem cells (mESCs) inoculated at passage P13 with the mycoplasma species M. hominis, M. fermentans and M. orale and cultured over 20 passages showed reduced growth rate and viability (P < 0.0001) compared to control mESCs. Spectral karyotypic analysis of mycoplasma-infected mESCs showed a number of non-clonal chromosomal aberrations which increased with the duration of infection. The differentiation status of the infected mESCs was most affected at passage P13+6 where the infection was strongest and 46.3% of the mESCs expressed both POU5F1 and SSEA-1 markers whereas 84.8% of control mESCs expressed both markers. The percentage of germline chimeras from mycoplasma-infected mESCs was examined after blastocyst injection and embryo transfer to suitable recipients at different passages and, compared to the respective control group, was most affected at passage P13+5 (50% vs. 90%; P < 0.07). Further reductions were obtained at the same passage in the percentage of litters born (50% vs. 100%; P < 0.07) and in the percentage of pups born (22% vs. 45%; P < 0.001). Thirty three chimeras (39.8%) obtained from blastocyst injection with mycoplasma-infected mESCs showed reduced body weight (P < 0.0001), nasal discharge, osteoarthropathia, and cachexia. Flow cytometric analysis of plasma from chimeras produced with mycoplasma-infected mESCs revealed statistically significant differences in the proportions of T-cells and increased levels of IgG1 (P < 0.001), IgG2a (P < 0.05) and IgM (P < 0.05), anti-DNA antibodies (P < 0.05) and rheumatoid factor (P < 0.01). The present data indicate that mycoplasma contamination of mESCs affects various cell parameters, germline transmission, and postnatal development of the resulting chimeras.     

Serial passage of MC3T3-E1 cells alters osteoblastic function and responsiveness to transforming growth factor-beta1 and bone morphogenetic protein-2.

The murine-derived clonal MC3T3-E1 cell is a well-studied osteoblast-like cell line. To understand the effects of serial passages on its cellular function, we examined changes in cell morphology, gap junctional intercellular communication (GJIC), proliferation, and osteoblastic function between early passage (<20) and late passage (>65) cells. MC3T3-E1 cells developed an elongated, spindle shape after multiple passages. Intercellular communication decreased significantly (33%) in late vs. early passage cells. Transforming growth factor-beta1 (TGF-beta1) stimulated cell proliferation in early passage cells and induced c-fos expression, while it inhibited proliferation in late passage cells. Using alkaline phosphatase (ALP) activity and osteocalcin (OC) secretion as markers for osteoblastic function and differentiation, we demonstrated that both markers were significantly reduced after multiple cell passages. Bone morphogenetic protein-2 (BMP-2) significantly enhanced ALP activity and OC secretion in early passage cells while TGF-beta1 exerted an opposite effect. Both BMP-2 and TGF-beta1 had minimal effects on late passage cells. We conclude that serial passage alters MC3T3-E1 cell morphology, and significantly diminishes GJIC, osteoblastic function, TGF-beta1-mediated cell proliferation, and responsiveness to TGF-beta1 and BMP-2. Cell passage numbers should be clearly defined in functional studies involving MC3T3-E1 cells.     

In vitro changes in plasma membrane heparan sulfate proteoglycans and in perlecan expression participate in the regulation of fibroblast growth factor 2 mitogenic activity

Fibroblast growth factor 1 (FGF1) and 2 (FGF2) bind to two classes of receptors: the high affinity receptors, a family of four known transmembrane tyrosine kinases (FGF R1-R4), and the low affinity receptors, cell surface and basement membrane heparan sulfate proteoglycan (HSPG). During early (first and second) passages of retinal pigmented epithelial (RPE) cells, both FGF1 and FGF2 exhibited low mitogenic activity, while in later (fifth to ninth) passages the activity of FGF1 remained constant but FGF2 activity increased two- to threefold. We have investigated aspects of FGF receptor interactions and the role of heparin/heparan sulfate which modulates FGF activity on RPE cells during in vitro senescence. Northern blot analysis demonstrated that FGF receptor type 1 (FGF R1) is the major high affinity receptor expressed in RPE cells and that its level of expression did not change during serially passage. Both the FGF R1 and the FGF low affinity receptors' binding characteristics (i.e., Kd and number of sites per cell) for FGF1 were unaffected by passage number, whereas the capacity of FGF2 binding to FGF R1 and to the low affinity receptors increased by two- and fivefold, respectively, in late passages, although the affinities were unchanged. This change in the capacity of FGF2 to bind to FGF R1 and to HSPG was not due to a switch of all the IIIc splice form of FGF R1 to the IIIb splice form since the exon IIIc was the most predominant splice form of FGF R1 during RPE cell cultures. Furthermore the ratio of the IIIb to the IIIc splice form was not modified during cell subcultures. In parallel in the older RPE cell passages, expression of perlecan, the major FGF low affinity binding site localized on the extracellular matrix of RPE cells, was much elevated compared to early RPE cell passages. Moreover, the cell surface of late passage RPE cells had 79% more HSPG than early passage cells. Therefore, it is suggested that the increase in the number of FGF low affinity receptors present on the cell surface or basement membrane could account for a part of the greater proliferative response of aged RPE cells to FGF2. © 1996 Wiley-Liss, Inc.     

Characterization of metabolic profiles and lipopolysaccharide effects on porcine vascular wall mesenchymal stem cells

The link between metabolic remodeling and stem cell fate is still unclear. To explore this topic, the metabolic profile of porcine vascular wall mesenchymal stem cells (pVW-MSCs) was investigated. At the first and second cell passages, pVW-MSCs exploit both glycolysis and cellular respiration to synthesize adenosine triphosphate (ATP), but in the subsequent (third to eighth) passages they do not show any mitochondrial ATP turnover. Interestingly, when the first passage pVW-MSCs are exposed to 0.1 or 10 μg/ml lipopolysaccharides (LPSs) for 4 hr, even if ATP synthesis is prevented, the spare respiratory capacity is retained and the glycolytic capacity is unaffected. In contrast, the exposure of pVW-MSCs at the fifth passage to 10 μg/ml LPS stimulates mitochondrial ATP synthesis. Flow cytometry rules out any reactive oxygen species (ROS) involvement in the LPS effects, thus suggesting that the pVW-MSC metabolic pattern is modulated by culture conditions via ROS-independent mechanisms.     

Mitochondria structural reorganization during mouse embryonic stem cell derivation

Mouse embryonic stem (ES) cells are widely used in developmental biology and transgenic research. Despite numerous studies, ultrastructural reorganization of inner cell mass (ICM) cells during in vitro culture has not yet been described in detail. Here, we for the first time performed comparative morphological and morphometric analyses of three ES cell lines during their derivation in vitro. We compared morphological characteristics of blastocyst ICM cells at 3.5 and 4.5 days post coitum on feeder cells (day 6, passage 0) with those of ES cells at different passages (day 19, passage 2; day 25, passage 4; and passage 15). At passage 0, there were 23–36% of ES-like cells with various values of the medium cross-sectional area and nucleocytoplasmic parameters, 55% of fibroblast-like (probably trophoblast derivatives), and ~?19% of dying cells. ES-like cells at passage 0 contained autolysosomes and enlarged mitochondria with reduced numerical density per cell. There were three types of mitochondria that differed in matrix density and cristae width. For the first time, we revealed cells that had two and sometimes three morphologically distinct mitochondria types in the cytoplasm. At passage 2, there were mostly ES cells with a high nucleocytoplasmic ratio and a cytoplasm depleted of organelles. At passage 4, ES cell morphology and morphometric parameters were mostly stable with little heterogeneity. According to our data, cellular structures of ICM cells undergo destabilization during derivation of an ES cell line with subsequent reorganization into the structures typical for ES cells. On the basis of ultrastructural analysis of mitochondria, we believe that the functional activity of these organelles changes during early stages of ES cell formation from the ICM.     

Cholesterol modulates the volume-regulated anion current in Ehrlich-Lettre ascites cells via effects on Rho and F-actin

The mechanisms controlling the volume-regulated anion current (VRAC) are incompletely elucidated. Here, we investigate the modulation of VRAC by cellular cholesterol and the potential involvement of F-actin, Rho, Rho kinase, and phosphatidylinositol-(4,5)-bisphosphate [PtdIns(4,5)P₂] in this process. In Ehrlich-Lettre ascites (ELA) cells, a current with biophysical and pharmacological properties characteristic of VRAC was activated by hypotonic swelling. A 44% increase in cellular cholesterol content had no detectable effects on F-actin organization or VRAC activity. A 47% reduction in cellular cholesterol content increased cortical and stress fiber-associated F-actin content in swollen cells. Cholesterol depletion increased VRAC activation rate and maximal current after a modest (15%), but not after a severe (36%) reduction in extracellular osmolarity. The cholesterol depletion-induced increase in maximal VRAC current was prevented by F-actin disruption using latrunculin B (LB), while the current activation rate was unaffected by LB, but dependent on Rho kinase. Rho activity was decreased by 20% in modestly, and 50% in severely swollen cells. In modestly swollen cells, this reduction was prevented by cholesterol depletion, which also increased isotonic Rho activity. Thrombin, which stimulates Rho and causes actin polymerization, potentiated VRAC in modestly swollen cells. VRAC activity was unaffected by inclusion of a water-soluble PtdIns(4,5)P₂ analogue or a PtdIns(4,5)P₂-blocking antibody in the pipette, or neomycin treatment to sequester PtdIns(4,5)P₂. It is suggested that in ELA cells, F-actin and Rho-Rho kinase modulate VRAC magnitude and activation rate, respectively, and that cholesterol depletion potentiates VRAC at least in part by preventing the hypotonicity-induced decrease in Rho activity and eliciting actin polymerization. cell swelling; kinase; phospholipid phosphatidylinositol-(4,5)-bisphosphate; cytoskeleton     

Effects of different states of sheep fetal fibroblasts as donor cells on the early development in vitro of reconstructed sheep embryos

To investigate the effects of different states of donor cells on the development of reconstructed sheep embryos, we designed five treatments of donor cells, including cell passage, cell size, serum starvation, colchicine treatment and gene transfection. Results are as follows: (Ⅰ) Compared with 16-18 passage cells, the morula/blastocyst rate of 5-7 passage cells as donor nuclei was significantly higher (17.3% vs. 4.9%, P<0.05), suggesting the advantage of short-time cultured cells in supporting the development of reconstructed embryos. (Ⅱ) The morula/blastocyst rate of reconstructed embryos derived from medium cells (15-25μm) as donor nuclei was higher than that from large cells (25-33μm) and small cells (8-15μm)( 20.0% vs. 8.0%, 9.7%), indicating that reconstructed embryos from medium cells had a greater potentiality to develop into morula/blastocysts than those from small or large ones. (Ⅲ) The morula/blastocyst rate of reconstructed embryos from donor cells of SS (serum starvation) was lower than that from donor cells of NSS (non-serum starvation), but no significant difference was detected between SS and NSS(11.8% vs. 18.6%, P>0.05). (Ⅳ) Fetal fibroblasts treated with 0.05μmol/L colchicine exhibited a higher morula/blastocyst rate of reconstructed embryos than those treated with 0.10 μmol/L colchicine and untreated ones (27.5% vs. 12.1%, 17.1%), however, no significant difference among the three treatments was detected (P>0.05). (Ⅴ) The morula/blastocyst rate of reconstructed embryos from fetal fibroblasts transfected with GFP gene only was 3.1%, significantly lower than that from non-transgenic cells (3.1% vs. 20.4%, P<0.05). In conclusion, our results demonstrated that fetal fibroblasts of fewer passages, medium size could ensure a higher morula/blastocyst rate of reconstructed embryos. Serum starvation of donor cells might be unnecessary to the development of reconstructed embryos. Donor cells treated with 0.05μmol/L colchicine could facilitate the development of reconstructed embryos. Additionally, as cells transfected with GFP gene were used as donor nuclei, adverse effect on the development of reconstructed embryos was observed. Therefore, the developmental efficiency of reconstructed embryos could be improved if proper treatments to donor cells were used.