Introduction of wild-type p53 in a human ovarian cancer cell line not expressing endogenous p53.

Utilizing a temperature sensitive p53 mutant (pLTRp53cGval135) which expresses mutant p53 at 37 degrees C and a wild-type like p53 at 32 degrees C, we transfected a human ovarian cancer cell line (SKOV3) which does not express endogenous p53. Among the different clones obtained, we selected three clones. Two were obtained from simultaneous transfection of p53 and neomycin resistance expression plasmids (SK23a and SK9), the other was obtained from transfection experiments utilizing the neomycin resistance gene only (SKN). Introduction of mutant p53 did not alter the morphology or growth characteristics of this ovarian cancer cell line. Upon shifting to the permissive temperature, a dramatic change in morphology and growth rate was observed in SK23a and SK9 cells that is associated with the presence of a wild-type like p53. SKN and SKOV3 cells maintained at 32 degrees C did not change morphology and only slightly reduced proliferation. Both SK23a and SK9 cells did not show evidence of apoptosis when measured up to 72 hours of maintenance at 32 degrees C. In contrast to what observed in other cell lines, SK23a and SK9 cells maintained at 32 degrees C were not blocked in G1, but they were accumulated in G2-M. This accumulation was transient and could be due either to a blockade or to a delay in the G2 progression. No down-regulation of c-myc was observed in p53 expressing clones when shifted to the permissive temperature. In these conditions gadd45 mRNA expression was highly stimulated in SK9 and SK23a cells but not in SKN cells. In both clones Gas1 mRNA was not detected either at 37 degrees C or 32 degrees C. This system represents a new and useful model for studying the effect of the absence of p53 (SKOV3 or SKN), presence of mutated p53 (SK23a and SK9 kept at 37 degrees C) or wild type p53 (SK23a and SK9 kept at 32 degrees C) on the mechanism of response of cancer cells to DNA damaging agents.     

Dermoscopy of Melanomas on the Trunk and Extremities in Asians

The incidence of melanoma among the Asian population is lower compared to that among the Western European population. These populations differed in their most common histopathologic subtypes, acral lentiginous melanoma being the most common in the Asian population. Although the dermoscopic features of the melanomas on the acral skin have been thoroughly investigated in the Asian population, studies concerning the dermoscopic patterns of melanomas on the non-acral skin have been scarce. The aim of this study was to investigate the dermoscopic patterns of melanomas on the trunk and extremities in the Asian population. To achieve this, we evaluated the dermoscopic patterns of 22 primary melanomas diagnosed at two university hospitals in Korea. In addition, 100 benign melanocytic lesions were included as the control group for comparative analysis. A P value less than 0.05 was regarded as statistically significant. Melanoma-associated dermoscopic features such as asymmetry (odds ratio [OR], 30.00), multicolor pattern (OR, 30.12), blotches (OR, 13.50), blue white veils (OR, 15.75), atypical pigment networks (OR, 9.71), irregular peripheral streaks (OR, 6.30), atypical vascular patterns (OR, 11.50), ulcers (OR, 15.83), atypical dots/globules (OR, 3.15), shiny white lines (OR, 5.88), and regression structures (OR, 7.06) were more commonly observed in patients with melanomas than in patients of the control group. The mean dermoscopic scores obtained on the 7-point checklist, revised 7-point checklist, 3-point checklist, ABCD rule, and CASH algorithm were 5.36, 3.41, 2.05, 6.89, and 9.68, respectively, in the primary melanomas, and 1.33, 0.93, 0.46, 2.45, and 3.60, respectively, in the control group (all, P < 0.001). The present study showed that melanoma-related dermoscopic patterns were common in Asian patients. Dermoscopy is a reliable diagnostic tool for the melanomas of the trunk and extremities in the Asian populations.     

Benign missense variations in the cystic fibrosis gene.

The common mutation causing cystic fibrosis is a deletion of phenylalanine 508 (delta F508), which occurs in a putative nucleotide-binding fold of the gene product. We report two additional mutations, substitution of cysteine for phenylalanine 508 (F508C) and substitution of valine for isoleucine 506 (I506V). Three compound heterozygous persons, two delta F508/F508C and one delta F508/I506V, had normal clinical and epithelial physiological studies indicating that the F508C and I506V mutations are benign. This opportunity to study the in vivo function of these mutations suggests that amino acid substitutions are more benign than changes in the length of this portion of the putative nucleotide-binding fold. These mutations must be taken into account when performing molecular diagnosis and carrier detection for cystic fibrosis.     

Sequence and kinetic analyses of streptokinase from two group G streptococci with high fibrin-dependent plasminogen activities and the identification of novel altered amino acids as potential hot spots

Objective

To gain insights on the degree of heterogeneity and kinetic differences of streptokinase (SK) from group G (SKG) Streptococci compared with standard SK from group C (SKC) and identification of potentially contributing critical residues (hotspots).

Results

DNA and sequencing analyses confirmed the proper construction of all SK encoding vectors (two SKGs and one standard SKC). SDS-PAGE and western blot analyses confirmed the expression and proper purification of the recombinant SKs from E.coli with the expected size of 47 kDa. Kinetic analyses of two SKGs, compared with SKC, showed higher levels of specific [(×10³ IU/mg) of 725 and 715 vs. 536] and fibrin-dependent proteolytic activities [Kcat/K_M (min^?1/µM) of 37 and 30 vs. 23], accompanied by declined fibrin-independent amidolytic activities [Kcat/K_M (min^?1/mM) of 109 and 84 vs. 113], respectively. Sequence alignments identified 10 novel residual substitutions scattered in SKα (I33F, R45Q, SKG132, A47D, and G55 N), SKβ (N228 K, F287I), and SKγ domains (L335 V, V396A, T403S) of SKGs, as potential hotspots.

Conclusion

The residue substitutions identified might critically contribute as hot spots to different kinetic parameters of SKGs and might assist in further elucidation of structure/function relations and rational design of SKs with improved (fibrin-dependent) therapeutic properties.

     

cAMP-mediated regulation of murine intestinal/pancreatic Na+/HCO3- cotransporter subtype pNBC1

Basolateral Na(+)-HCO(3)(-) cotransport is essential for intestinal anion secretion, and indirect evidence suggests that it may be stimulated by a rise of intracellular cAMP. We therefore investigated the expression, activity, and regulation by cAMP of the Na(+)-HCO(3)(-) cotransporter isoforms NBC1 and NBCn1 in isolated murine colonic crypts. Na(+)-HCO(3)(-) transport rates were measured fluorometrically in BCECF-loaded crypts, and mRNA expression levels and localization were determined by semiquantitative PCR and in situ hybridization. Acid-activated Na(+)-HCO(3)(-) cotransport rates were 5.07 +/- 0.7 mM/min and increased by 62% after forskolin stimulation. NBC1 mRNA was more abundant in colonic crypts than in surface cells, and crypts expressed far more NBC1 than NBCn1. To investigate whether the cAMP-induced Na(+)-HCO(3)(-) cotransport activation was secondary to secretion-associated changes in HCO(3)(-) or cell volume, we measured potential forskolin-induced changes in intracellular pH and assessed Na(+)-HCO(3)(-) transport activity in CFTR -/- crypts (in which no forskolin-induced cell shrinkage occurs). We found 30% reduced Na(+)-HCO(3)(-) transport rates in CFTR -/- compared with CFTR +/+ crypts but similar Na(+)-HCO(3)(-) cotransport activation by forskolin. These studies establish the existence of an intracellular HCO(3)(-) concentration- and cell volume-independent activation of colonic NBC by an increase in intracellular cAMP.     

Analysis of the interactions between streptokinase domains and human plasminogen.

The contrasting roles of streptokinase (SK) domains in binding human Glu1-plasminogen (Plg) have been studied using a set of proteolytic fragments, each of which encompasses one or more of SK's three structural domains (A, B, C). Direct binding experiments have been performed using gel filtration chromatography and surface plasmon resonance. The latter technique has allowed estimation of association and dissociation rate constants for interactions between Plg and intact SK or SK fragments. Each of the SK fragments that contains domain B (fragments A2-B-C, A2-B, B-C, and B) binds Plg with similar affinity, at a level approximately 100- to 1,000-fold lower than intact SK. Experiments using 10 mM 6-aminohexanoic acid or 50 mM benzamidine demonstrate that either of these two lysine analogues abolishes interaction of domain B with Plg. Isolated domain C does not show detectable binding to Plg. Moreover, the additional presence of domain C within other SK fragments (B-C and A2-B-C) does not alter significantly their affinities for Plg. In addition, Plg-binding by a noncovalent complex of two SK fragments that contains domains A and B is similar to that of domain B. By contrast, species containing domain B and both domains A and C (intact SK and the two-chain complex A1 x A2-B-C) show a significantly higher affinity for Plg, which could not be completely inhibited by saturating amounts of 6-AHA. These results show that SK domain B interacts with Plg in a lysine-dependent manner and that although domains A and C do not appear independently to possess affinity for Plg, they function cooperatively to establish the additional interactions with Plg to form an efficient native-like Plg activator complex.     

Properties of streptokinase incorporated into polyethylene glycol microcapsules

Thrombolytic therapy with high doses of streptokinase (SK), which are required due to its rapid clearance from the bloodstream, is accompanied by side effects. In this work, the SK was incorporated into water-soluble polyethylene glycol (PEG) microcapsules with the double emulsification method in order to increase its lifetime in bloodstream and decrease side effects. Four preparations of SK*PEG-microcapsules with a high degree of the SK enclosure (～90–91%) and total retention of fibrinolytic activity were produced under varying emulsification conditions (PEG molecular mass 20 or 40 kDa and PEG/SK ratio 12 or 8 mg of PEG/1000 IU SK). SK was released from the PEG-microcapsules at different rates: the time of complete release varied from 45 to 90 min (pH 7.4, 37°C). Comparative in vitro study of thrombolytic activity and side effects of the SK in a free and encapsulated state was conducted. It was found that the rate of human plasma clot lysis under the action of encapsulated SK preparations is equal (with exception of a short lag-period) to the rate of lysis induced by the free SK, provided that the doses were equal (500 IU/mL). Furthermore, the SK*PEG-microcapsules caused the reduced exhaustion of plasminogen and fibrinogen in plasma when compared with the free SK.     

SiRNA‐Mediated Down‐Regulation of CLIC4 Gene Inhibits Cell Proliferation and Accelerates Cell Apoptosis of Mouse Liver Cancer Hca‐F and Hca‐P Cells

This study explored the effects involved in silencing CLIC4 on apoptosis and proliferation of mouse liver cancer Hca‐F and Hca‐P cells. A CLIC4‐target small interfering RNA (siRNA) was designed to compound into two individual complementary oligonucleotide chains. A process of annealing and connection to a pSilencer vector was followed by transfection with Hca‐F and Hca‐P cells. Quantitative real‐time polymerase chain reaction and Western blotting techniques were used to determine CLIC4 mRNA and protein expressions. CCK8 assay and flow cytometry were employed for analysis of the survival and apoptosis rate as well as the cell cycle in an octreotide‐induced apoptosis model. Expressions of caspase 3, caspase 9, and cleaved PARP were measured using Western blotting. The CLIC4 mRNA and protein expressions in Hca‐F and Hca‐P cells transfected by pSilencer‐CLIC4 siRNA plasmid in the blank group displayed remarkably decreased levels of expression, when compared with both the control and negative control (NC) groups. Decreased survival rates and cleaved PARP expression, increased cell apoptosis rate,expressions of caspase 3 and caspase 9 in Hca‐F and Hca‐P cells were detected in groups that had been cultured in a medium containing octreotide. The pSilencer‐CLIC4 siRNA‐2 group when compared with the control and NC groups exhibited decreased survival rates, cleaved PARP expression, increased cell apoptosis rates, and increased expressions of caspase 3 and caspase 9 of Hca‐F and Hca‐P cells. The results demonstrated that siRNA‐induced down‐regulation of CLIC4 could proliferation, while in turn promoting apoptosis of mouse liver cancer Hca‐F and Hca‐P cells. J. Cell. Biochem. 119: 659–668, 2018. © 2017 Wiley Periodicals, Inc.     

Phospholipid scramblase 3 controls mitochondrial structure, function, and apoptotic response

Phospholipid scramblase 3 (PLS3) is a newly recognized member of a family of proteins responsible for phospholipid translocation between two lipid compartments. To study PLS3 function in mitochondria, we disrupted its conserved calcium-binding motif yielding an inactive mutant PLS3(F258V). Cells transfected with PLS3(F258V) exhibited reduced proliferative capacity. Mitochondrial analysis revealed that PLS3(F258V)-expressing cells have decreased mitochondrial mass shown by lower cytochrome c and cardiolipin (CL) content, poor mitochondrial respiration, and reduced oxygen consumption and intracellular ATP; whereas wild-type PLS3-transfected cells exhibit increased mitochondrial mass and enhanced respiration. Electron microscopic examination revealed that the mitochondria in PLS3(F258V)-expressing cells have densely packed cristae and are fewer in number and larger than those in control cells. The abnormal mitochondrial metabolism and structure in PLS3(F258V)-expressing cells were associated with decreased sensitivity to UV- and tBid-induced apoptosis and diminished translocation of CL to the mitochondrial outer membrane. In contrast, wild-type PLS3-transfected cells displayed increased sensitivity to apoptosis and enhanced CL translocation. These studies identify PLS3 as a critical regulator of mitochondrial structure and respiration, and CL transport in apoptosis.     

QTL mapping for brown rot (Monilinia fructigena) resistance in an intraspecific peach (Prunus persica L. Batsch) F1 progeny

Brown rot (BR) caused by Monilinia spp. leads to significant post-harvest losses in stone fruit production, especially peach. Previous genetic analyses in peach progenies suggested that BR resistance segregates as a quantitative trait. In order to uncover genomic regions associated with this trait and identify molecular markers for assisted selection (MAS) in peach, an F1 progeny from the cross “Contender” (C, resistant)?×?“Elegant Lady” (EL, susceptible) was chosen for quantitative trait loci (QTL) analysis. Over two phenotyping seasons, skin (SK) and flesh (FL) artificial infections were performed on fruits using a Monilinia fructigena isolate. For each treatment, infection frequency (if) and average rot diameter (rd) were scored. Significant seasonal and intertrait correlations were found. Maturity date (MD) was significantly correlated with disease impact. Sixty-three simple sequence repeats (SSRs) plus 26 single-nucleotide polymorphism (SNP) markers were used to genotype the C?×?EL population and to construct a linkage map. C?×?EL map included the eight Prunus linkage groups (LG), spanning 572.92 cM, with an average interval distance of 6.9 cM, covering 78.73 % of the peach genome (V1.0). Multiple QTL mapping analysis including MD trait as covariate uncovered three genomic regions associated with BR resistance in the two phenotyping seasons: one containing QTLs for SK resistance traits near M1a (LG C?×?EL-2, R ²?=?13.1–31.5 %) and EPPISF032 (LG C?×?EL-4, R ²?=?11–14 %) and the others containing QTLs for FL resistance, near markers SNP_IGA_320761 and SNP_IGA_321601 (LG3, R ²?=?3.0–11.0 %). These results suggest that in the C?×?EL F1 progeny, skin resistance to fungal penetration and flesh resistance to rot spread are distinguishable mechanisms constituting BR resistance trait, associated with different genomic regions. Discovered QTLs and their associated markers could assist selection of new cultivars with enhanced resistance to Monilinia spp. in fruit.     

Active Ras-induced effects on skeletal myoblast differentiation and apoptosis are independent of constitutive PI3-kinase activity

23A2 myoblasts expressing GAP-resistant, constitutively active G12V:H-Ras (A2:G12V:H-Ras myoblasts) display a transformed morphology and do not undergo mitogen-deprivation-induced differentiation or the associated apoptosis. To determine the phenotype induced by F156L:H-Ras, a constitutively active mutant with enhanced nucleotide exchange activity rather than impaired GAP-stimulated GTPase activity, myoblast cell lines were established that stably express F156L:H-Ras at levels of H-Ras comparable to the A2:G12V:H-Ras myoblasts. These A2:F156L:H-Ras myoblast cell lines do not possess a transformed morphology, and while differentiation and apoptosis are impaired, these processes are not abrogated as in the A2:G12V:H-Ras myoblasts. Surprisingly, while expression of either G12V:H-Ras or F156L:H-Ras results in constitutive signaling through PI3-kinase, only cells expressing G12V:H-Ras additionally possess constitutive signaling through MAPK, and NFkappaB. Pharmacological abrogation of the Ras-induced constitutive PI3-kinase signal, however, is not responsible for the impaired differentiation or apoptosis in either A2:G12V:H-Ras myoblasts or A2:F156L:H-Ras myoblasts. Thus, our data suggest that a pathway distinct from those that signals through MAPK, NFkappaB or PI3-kinase is responsible for the impaired differentiation and apoptosis in 23A2 skeletal myoblasts expressing constitutively active Ras.     

二性霉素B与β-escin混合穿孔电极液在人心房肌细胞SK2电流记录中的应用

目的:为研究钙离子对人心房肌细胞小电导钙激活钾通道电流(ISK2)的调节作用,建立用二性霉素B(amphotericin B)与β-escin穿孔的膜片钳(PPR)技术。方法:体外循环术中取得右心耳,应用急性酶分离获得单个人体心房肌细胞,用二性霉素B和/或β-escin作为穿孔电极液,进行穿孔膜片钳实验,在此模式下测试钙离子对人心房肌细胞SK2电流的调控作用,并用胞内钙测试系统验证穿孔前后胞内钙变化。结果:混合使用穿孔电极液6.88μg/mlβ-escin和150μg/ml二性霉素B与单独用150μg/ml二性霉素B或6.88μg/mlβ-escin相比,前一种方法细胞容易封接,能形成稳定的穿孔膜片钳记录模式,可观察到SK2电流有激活,且胞内钙测试系统检测时可观察到穿孔后电极液至细胞内的游离钙离子浓度的增加,F340/380增强。结论:适当浓度的二性霉素B与β-escin混合使用进行穿孔膜片钳实验是一种稳定的全细胞膜片的记录技术,可以用于胞内游离钙离子对SK2电流调控的研究。     

Resolution of conformational activation in the kinetic mechanism of plasminogen activation by streptokinase

Streptokinase (SK) activates plasminogen (Pg) by specific binding and nonproteolytic expression of the Pg catalytic site, initiating Pg proteolysis to form the fibrinolytic proteinase, plasmin (Pm). The SK-induced conformational activation mechanism was investigated in quantitative kinetic and equilibrium binding studies. Progress curves of Pg activation by SK monitored by chromogenic substrate hydrolysis were parabolic, with initial rates (v(1)) that indicated no transient species and subsequent rate increases (v(2)). The v(1) dependence on SK concentration for [Glu]Pg and [Lys]Pg was hyperbolic with dissociation constants corresponding to those determined in fluorescence-based binding studies for the native Pg species, identifying v(1) as rapid SK binding and conformational activation. Comparison of [Glu]Pg and [Lys]Pg activation showed an approximately 12-fold higher affinity of SK for [Lys]Pg that was lysine-binding site dependent and no such dependence for [Glu]Pg. Stopped-flow kinetics of SK binding to fluorescently labeled Pg demonstrated at least two fast steps in the conformational activation pathway. Characterization of the specificity of the conformationally activated SK.[Lys]Pg* complex for tripeptide-p-nitroanilide substrates demonstrated 5-18- and 10-130-fold reduced specificity (k(cat)/K(m)) compared with SK.Pm and Pm, respectively, with differences in K(m) and k(cat) dependent on the P1 residue. The results support a kinetic mechanism in which SK binding and reversible conformational activation occur in a rapid equilibrium, multistep process.     

Fullerene derivative prevents cellular transformation induced by JAK2 V617F mutant through inhibiting c-Jun N-terminal kinase pathway

The constitutively activated mutation (V617F) of tyrosine kinase Janus kinase 2 (JAK2) is found in the majority of patients with myeloproliferative neoplasms (MPNs). The development of a novel chemical compound to suppress JAK2 V617F mutant-induced onset of MPNs and clarification of the signaling cascade downstream of JAK2 V617F mutant will provide clues to treat MPNs. Here we found that a water-soluble pyrrolidinium fullerene derivative, C(60)-bis (N, N-dimethylpyrrolidinium iodide), markedly induced apoptosis of JAK2 V617F mutant-induced transformed cells through a novel mechanism, inhibiting c-Jun N-terminal kinase (JNK) activation pathway but not generation of reactive oxygen species (ROS). Pyrrolidinium fullerene derivative significantly reduced the protein expression level of apoptosis signal-regulating kinase 1 (ASK1), one of the mitogen-activated protein kinase kinase kinases (MAPKKK), resulting in the inhibition of upstream molecules of JNK, mitogen-activated protein kinase kinase 4 (MKK4) and mitogen-activated protein kinase kinase 7 (MKK7). Strikingly, the knockdown of ASK1 enhanced the sensitivity to pyrrolidinium fullerene derivative-induced apoptosis, and the treatment with a JNK inhibitor, SP600125, also induced apoptosis of the transformed cells by JAK2 V617F mutant. Furthermore, administration of both SP600125 and pyrrolidinium fullerene derivative markedly inhibited JAK2 V617F mutant-induced tumorigenesis in nude mice. Taking these findings together, JAK2 V617F mutant-induced JNK signaling pathway is an attractive target for MPN therapy, and pyrrolidinium fullerene derivative is now considered a candidate potent drug for MPNs.     

The identification of quantitative trait loci that control the paternal inheritance of a mitochondrial plasmid in rapeseed (Brassica napus L.)

Some varieties of Brassica napus (rapeseed) and B. rapa contain a liner mitochondrial plasmid that is unique in that it can be inherited from the male parent through the pollen. We found that two rapeseed cultivars, Norin 16 and Westar, showed different rates of plasmid inheritance from the paternal parent (78.8% and 27.5%, respectively). To identify nuclear genes controlling the inheritance of the plasmid, we carried out quantitative trait locus (QTL) analyses using F(2) populations derived from a cross between these two cultivars. The F1 plants transmitted the plasmid from the paternal plant at a frequency of approximately 60%; the transmission rates of the F2 lines varied greatly, from 0 to 100%, with an average of 68.2%. A genetic map was constructed based on the segregation of 175 loci in the 102 F2 plants. A total of 22 linkage groups were obtained, all of which could be assigned to the 19 rapeseed chromosomes. The total map length was 1374.7 cM, with an average distance of 7.9 cM between the markers. We found that three quantitative trait loci for plasmid paternal transfer, qPpt1, qPpt2 and qPpt3, located on chromosomes A5, C2 and C9, respectively, were significantly linked to the transmission frequency, whose the logarithm of odds (LOD) score were 4.97, 3.49 and 3.57, respectively. Their explained phenotypic variances were 25.0%, 22.2% and 37.1%, respectively. These results suggest that the paternal inheritance of the mitochondrial plasmid is controlled by a relatively small number of nuclear genes.     

The roles of sphingosine kinases 1 and 2 in regulating the Warburg effect in prostate cancer cells

Two isoforms of sphingosine kinase, SK1 and SK2, catalyze the formation of the bioactive lipid sphingosine 1-phosphate (S1P) in mammalian cells. We have previously shown that treatment of androgen-sensitive LNCaP prostate cancer cells with a non-selective SK isoform inhibitor, 2-(p-hydroxyanilino)-4-(p-chlorophenyl)thiazole (SKi), induces the proteasomal degradation of SK1. This is concomitant with a significant increase in C22:0-ceramide and sphingosine levels and a reduction in S1P levels, resulting in the apoptosis of LNCaP cells. In contrast, we show here that a SK2-selective inhibitor, (R)-FTY720 methyl ether (ROME), increases sphingosine and decreases S1P levels but has no effect on ceramide levels and does not induce apoptosis in LNCaP cells. We also show that several glycolytic metabolites and (R)-S-lactoylglutathione are increased upon treatment of LNCaP cells with SKi, which induces the proteasomal degradation of c-Myc. These changes reflect an indirect antagonism of the Warburg effect. LNCaP cells also respond to SKi by diverting glucose 6-phosphate into the pentose phosphate pathway to provide NADPH, which serves as an antioxidant to counter an oxidative stress response. SKi also promotes the formation of a novel pro-apoptotic molecule called diadenosine 5′,5′′′-P¹,P³-triphosphate (Ap3A), which binds to the tumor suppressor fragile histidine triad protein (FHIT). In contrast, the SK2-selective inhibitor, ROME, induces a reduction in some glycolytic metabolites and does not affect oxidative stress. We conclude that SK1 functions to increase the stability of c-Myc and suppresses Ap3A formation, which might maintain the Warburg effect and cell survival, while SK2 exhibits a non-overlapping function.     

Bovine coagulation factor V visualized with electron microscopy. Ultrastructure of the isolated activated forms and of the activation fragments

Single chain bovine factor V (Mr = 330,000) was isolated and visualized by means of high resolution transmission electron microscopy of negatively stained samples. Both factor Va, activated by thrombin or by the factor V activator from Russell's viper venom, and the isolated fragments, D (Mr = 105,000), C1 (Mr = 150,000), and F1F2 (Mr = 72,000), were studied. Single chain factor V appeared as a multidomain structure with three globular domains of similar size (diameter approximately 80 A), and oriented around a somewhat larger central domain (diameter approximately 140 A). The distance between the center of the molecule and the center of each of the peripheral domains was 120 A and the maximum length of factor V was 300 A. The structure was essentially identical with that recently shown for human single chain factor V (Dahlb?ck, B. (1985) J. Biol. Chem. 260, 1347-1349). Isolated thrombin-activated factor Va (containing fragments D and F1F2) was composed of two domains of similar size, each of which was approximately 80 A in diameter and corresponded in size and shape to the peripheral domains seen in intact factor V. The isolated activation fragment C1 appeared as an irregular structure with an approximate diameter of 140 A and corresponded in size and shape to the larger central domain in intact factor V. The activator from Russell's viper venom only cleaves the bond(s) between C1 and F1F2, which results in two fragments, a larger fragment (Mr = 220,000) bearing the D, E, and C1 region and a smaller one corresponding to the F1F2 fragment. The venom-activated factor Va in the electron microscope demonstrated a multidomain structure similar in size and shape to that obtained with intact factor V. A model for factor V and the molecular events involved in activation is proposed.