The role of B and T lymphocytes in forming cell clones producing antibodies

Previous experiments with cloning of immunocompetent cells indicate a switch from IgM to IgG during the multiplication of immunologically activated cells derived by proliferation from one precursor. An alternative explanation, cooperation of one T cell with two different B cells (IgM and IgG precursors) is experimentally studied in the present work. Control experiments indicate that all detected foci are dependent on the production of antibodies and the action of complement. Numbers of foci are linearly dependent on the quantity of cells transferred to isologous lethally irradiated mice. There is a time gap between the first detection of antibodies by the focus technique (on the 4th day after the transfer) and by the plaque technique with isolated cells (detectable only from the 6th day after the transfer); early foci contain antibodies but do not produce (secrete) them in sufficient amounts. Transfer of lymphocytes isolated from spleen, bone marrow and thymus showed that foci in the primary response are formed only by B lymphocytes. The transfer of a constant number of B lymphocytes with increased numbers of T lymphocytes did not change the quantity of Ab-forming foci; there is an increase, however, of the numbers of individual cells producing antibodies detected by the plaque technique,i.e. the number of Ab forming cells per individual clone (focus). Through the action of T lymphocytes the switch from IgM to IgG is made possible. The auxiliary role of T lymphocytes in the primary response is discussed. Dedicated to Prof. F. Patočka on his 70th birthday     

In vitro production of anti-histone antibodies by spleen cells from young autoantibody negative NZB/NZW mice

Anti-histone antibodies (AHA) are spontaneously produced in NZB/NZW mice as part of their autoimmune disease. IgM AHA are usually not detected until after 4 mo of age, and older female mice switch to the production of IgG AHA. We studied the in vitro production of AHA by spleen cells from young (less than or equal to 12-wk-old) NZB/NZW mice. Despite the absence of elevated serum AHA activity, spleen cells from these mice demonstrated marked spontaneous autoantibody production in culture. In kinetic studies, little in vitro production was detectable after 1 day of culture, and maximal accumulation occurred on day 5. Elevated AHA production was apparent by cells from 2-wk-old NZB/NZW mice, and an age-dependent increase in autoantibody production was also noted. Only AHA of the IgM class were detected in cultures of young spleen cells. The in vitro production of IgM AHA in culture was T cell dependent, depletion of T cells resulting in a 70 to 90% reduction in production, which was corrected by the readdition of T cells. In cultures where both IgM AHA and total IgM secretion were measured, a much greater T cell dependence for AHA production was apparent. The requirement for T cells could also be partially replaced by factors present in concanavalin A supernatant. AHA secretion was induced by lipopolysaccharide by using cells from both NZB/NZW and non-autoimmune mice. Although production was greater with NZB/NZW cells, the difference was much less than that for spontaneous production. Thus, AHA-secreting cells that are dependent on in vitro T cell help are present in young NZB/NZW mice. These studies may help define the mechanisms responsible for selective autoantibody secretion in lupus-like disease.     

IgM and IgG response to sheep red blood cells in mouse hepatitis virus-infected nude mice.

In nude mice which originally had no ability to respond to sheep red blood cells, an enhanced response to the same antigen with IgM-IgG switching was demonstrated during subacute infection with mouse hepatitis virus. IgM antibody-producing cells in the spleen were detected at days 2 to 6 after the antigen injection and IgG antibody-producing cells appeared at day 6 or later. The secondary IgG response, though not remarkable, was recognized after reinjection of the antigen 10 days after the first injection.     

Circadian rhythms in the incidence of apoptotic cells and number of clonogenic cells in intestinal crypts after radiation using normal and reversed light conditions

Variations in the number of radiation-induced morphologically dead or dying cells (apoptotic cells) in the crypts in the small intestine of the mouse have been studied throughout a 24-h period under a normal light regimen (light on, 07.00-19.00 h; light off, 19.00-07.00 h). A clear circadian rhythm was displayed in the apoptotic incidence 3 or 6 h after irradiation for each gamma-ray dose studied (range 0.14-9.0 Gy). The most prominent circadian rhythm was obtained after 0.5 Gy. The peak time of day for inducing apoptosis was 06.00-09.00 h, and the trough occurred at 18.00-21.00 h. Some mice were also transferred to a room with the light cycle reversed, and were irradiated on different days after the transfer. The apoptosis induced by 0.5 Gy or 9.0 Gy, or the number of surviving crypts (microcolonies) after 11.0 Gy or 13.0 Gy was examined. The transition point for reversal (i.e. the switch time from the normal-light pattern to the reversed-light pattern) of the circadian rhythm in apoptosis (after 0.5 Gy) occurred 7 days after the transfer and the rhythm was reversed by 14 days. The rhythm for crypt survival (i.e. for clonogenic cell radiosensitivity) was disturbed on 1 day and the transition point for reversal occurred 3 days after the transfer. The rhythm became reversed by 7 days. These observations are discussed in relation to the identity of clonogenic cells, (functional) stem cells, proliferating transit cells and the cells sensitive to small doses of radiation (i.e. hypersensitive cells) in the crypt.     

RPA foci are associated with cell death after irradiation

MacPhail, S. H. and Olive, P. L. RPA Foci are Associated with Cell Death after Irradiation. Radiat. Res. 155, 672-679 (2001). Complexes containing replication protein A (RPA) were observed in human TK6 and WIL-2NS lymphoblast cells and SiHa cervical carcinoma cells exposed to 250 kV X rays. Image analysis of individual cells with fluorescence-tagged anti-RPA antibodies was used to measure numbers of discrete foci per cell. RPA foci formed in S-phase cells in response to radiation doses as low as 0.5 Gy, and the number of foci/nucleus was linearly related to dose up to 50 Gy. The maximum number of cells with foci occurred 4-8 h after exposure to 4 Gy, and subsequently declined. However, the number of RPA foci per nucleus (in those cells with foci) reached a maximum after 2-4 h. Apoptotic nuclei from irradiated TK6 and WIL-2NS cells initially contained foci, but these were lost as degradation continued. Radiation-induced micronuclei in SiHa cells were greatly enriched for RPA foci, and cells with nuclei without foci often contained micronuclei with multiple RPA foci. In SiHa cells examined up to 7 days after 4 Gy, RPA foci reappeared in one or more cells in up to 90% of the surviving colonies, and some cells contained 150 or more distinct foci. Reappearance of these complexes could be indicative of radiation-induced genomic instability. These results are consistent with the idea that RPA foci observed several hours after irradiation represent irreparable lesions and as such might be useful in identifying radiosensitive cells.     

Increased resistance of splenectomized mice to Sporothrix schenckii infection

The susceptibility of splenectomized mice to Sporothrix schenckii was studied, and the role of the spleen in the host defense is discussed. S. schenckii Sp-1 and ddy male mice were used. The mice were divided into 3 groups consisting of splenectomized, sham-operated and intact mice. Each mouse was inoculated intravenously with 2×10⁶ yeast cells 7 days after operation and the mice were sacrified at adequate intervals for 30 days. Then histological sections stained with H&E or by PAS were prepared from various visceral organs. Using the liver sections the number of yeast cells in a 40 mm² was counted. Furthermore, the colony forming unit in 100 mg of the liver tissue was compared to each other.In the sham-operated and intact mice many purulent lesions appeared on the 5th day. On the 8th day mononuclear cells accumulated at the foci, and on the 10th day most of the foci became granulomatous. The number of yeast cells in granulomatous lesions reached a peak on the 10th day and thereafter decreased abruptly. On the other hand, in the splenectomized mice approximately half of foci became granulomatous on the 5th day, and the number of yeast cells in the foci began to decrease after the 5th day.There were definite differences in the colony forming unit between the splenectomized and sham-operated or intact mice sacrificed 9 days after inoculation. The colony forming unit of the former is 9.3×10⁵ on the average, while that of the latter two is 5.6×10⁶ and 5.1×10⁶ on the average, respectively.In conclusion the resistance of ddy mice to S. Schenckii infection is enhanced due to splenectomy.     

Triiodothyronine accelerates differentiation of rat liver progenitor cells into hepatocytes

The 2-acetaminofluorene/partial hepatectomy (AAF/Phx) model is widely used to induce oval/progenitor cell proliferation in the rat liver. We have used this model to study the impact of a primary hepatocyte mitogen, triiodothyronine (T3) on the liver regenerating by the recruitment of oval/progenitor cells. Administration of T3 transiently accelerates the proliferation of the oval cells, which is followed by rapid differentiation into small hepatocytes. The oval cell origin of the small hepatocytes has been proven by tracing retrovirally transduced and BrdU marked oval cells. The differentiating oval cells become positive for hepatocyte nuclear factor-4 and start to express hepatocyte specific connexin 32, α1 integrin, Prox1, cytochrom P450s, and form CD 26 positive bile canaliculi. At the same time oval cell specific OV-6 and alpha-fetoprotein expression is lost. The upregulation of hepatocyte specific mRNAs: albumin, tyrosine aminotransferase and tryptophan 2,3-dioxygenase detected by real-time PCR also proves hepatocytic maturation. The hepatocytic conversion of oval cells occurs on the seventh day after the Phx in this model while the first small hepatocytes appear 5 days later without T3 treatment. The administration of the primary hepatocyte mitogen T3 accelerates the differentiation of hepatic progenitor cells into hepatocytes in vivo, and that may have therapeutic potential. Supported by OTKA T 42674 and ETT 32/2006.     

Dissemination of bovine leukemia virus-infected cells from a newly infected sheep lymph node

To investigate the early establishment of bovine leukemia virus (BLV) infection, we injected BLV-infected or mock-infected allogeneic cells into the shoulder of sheep in which an efferent lymphatic duct of the draining prescapular lymph node had been cannulated. Rare mononuclear cells acting as centers of BLV infection in culture were present within 4 to 6 days in efferent lymph and within 6 to 10 days in blood. Soon after BLV injection, immunoglobulin M+ (IgM+) and CD8+ cells increased in efferent lymph and oscillated reciprocally in frequency. CD8+ blasts increased on days 4 to 6, when infectious centers increased 100-fold in lymph. On days 6 and 7, both lymph and blood were enriched with CD8+ cells that were labeled late on day 5 with an intravenous pulse of 5-bromo-2'-deoxyuridine (BrdU). Lymph, but not blood, was enriched with BrdU+ B cells on day 7. Capsid-specific antibodies became detectable in efferent lymph on days 6 to 8 and surface glycoprotein-specific antibodies on day 9, preceding their detection in serum by 9 to 14 days. Systemic dissemination of BLV-infected cells was thus accompanied by an increase in proliferating CD8+ cells and the onset of BLV-specific antibodies in lymph. Infectious centers reached maximum frequencies of 0.2% in lymph by days 11 to 13, and then their frequencies increased by 5- to 40-fold in blood cells, suggesting that many infected blood cells do not recirculate back into lymph. Beginning on days 10 to 13, a subpopulation of B cells having high levels of surface IgM increased sharply in peripheral blood. Such cells were not present in lymph. After a day 16 pulse of BrdU, recently proliferated cells that stained intensely for surface IgM appeared in blood within 15 h. Predominantly B lymphocytes contained the viral capsid protein when lymph and blood cells were cultured briefly to allow BLV expression. However, both early in lymph and later in blood, BrdU+ B cells greatly exceeded productively infected cells, indicating that new BLV infections stimulate proliferation of two different populations of B cells.     

Separate actions of different colony stimulating factors from human placental conditioned medium on human hemopoietic progenitor cell survival and proliferation

More than 20% of human granulocyte-macrophage and eosinophil colony-forming cells survived in agar culture for up to 4 days without the addition of exogenous colony stimulating factors (human placental-conditioned medium, HPCM). Survival was reduced slightly but not significantly, by the removal of adherent cell populations. Significant survival occurred even when only 100 cells enriched for colony-forming cells (CFCs) were cultured per dish. When individual colonies, initiated by stimulation with HPCM for 5 days, were transferred to dishes without HPCM, subsequent proliferation was significantly reduced compared with control cultures containing HPCM. Using the fluorescence-activated cell sorter and the fluoresceinated lectin from Lotus tetragonolobus, two populations of marrow cells were obtained, one enriched for day 7 and the other for day 14 colony-forming cells. Two colony-stimulating factors fractionated from HPLCM (CSF^β and CSF^α) have been shown previously to stimulate the day 7 and day 14 colony-forming cell populations, respectively. Developing clones from cultures initiated with CSFβ died between the fifth and tenth day of culture after transfer to dishes with CSFα or CSFβ or to dishes with no stimulus. Cells in clusters initiated with CSFα proliferated significantly between the fifth and tenth day of culture when transfered to CSFα or CSFβ but not when transfered to dishes with not stimulus. These studies provide further evidence for the existence of two subtypes of human granulocyte-macrophage progenitor cells each under the primary control of a specific regulator and indicate that these two regulators can both act on some developing clones of cells.     

Fertility of stallion semen processed, frozen and thawed by a new procedure

The fertility of frozen-thawed and fresh semen from three stallions was compared in a trial using a randomized block design and 90 mares for 108 cycles. Semen was collected every third day, diluted to 50 x 10(6) sperm/ml with a citrate-based centrifugation medium, and centrifuged. The cells were resuspended at 700 x 10(6) progressively motile sperm/1.0 ml of added lactose-EDTA-egg yolk extender containing 4% glycerol, packaged by placing 0.55 ml into polypropylene straws, and frozen. Semen was thawed by immersion in 75 degrees C water for 10 sec. All of the 43 ejaculates collected were frozen, but 21 were discarded because progressive sperm motility was <35% immediately after thawing or <40% after 30 min of incubation at 37 degrees C. semen from the same stallions was collected daily for inseminations with fresh semen. Semen containing 200 x 10(6) progressively motile sperm was added to 10 ml of heated skimmilk extender. Mares were inseminated daily starting on the third day of estrus or when a >/=4-cm follicle was detected, whichever came later, and continuing through the end of estrus or for nine days. Based on palpation per rectum on day 50 postovulation, the pregnancy rates from inseminations during one estrus were 50, 56 and 61% with frozen semen and 67, 67 and 61% with fresh semen (P>0.05) from the three stallions, respectively. Thus, mean pregnancy rate with frozen semen was 86% of the rate attained with fresh semen.     

Polyclonal activation of the murine immune system by an antibody to IgD. VIII. Stimulation of IgD secretion

The low levels of serum IgD found in mice and the lack of a typical DNA switch sequence between C delta and C mu raise the possibility that the generation of murine IgD-secreting cells results from a chance "mistake" rather than a controlled process. The recent observation that injection of mice with purified IgD upregulates IgD receptor expression on helper T cells and enhances the ability of these T cells to induce B cells to differentiate into antibody secreting cells led us to look for evidence of controlled differentiation of B cells into IgD-secreting cells. To do this, we injected mice with a goat antibody to IgD (GaM delta), because this antibody stimulates large increases in IgM, IgG1, IgG2a, and IgE secretion. Mice injected with GaM delta demonstrated a large increase in splenic content of mRNA specific for the secreted form of delta-chain, as well as a greater than 100-fold increase in the percentage of splenic IgD-containing plasmablasts. The secretory IgD response was totally T-dependent. Production of the secretory form of IgD was not seen until 7 days after GaM delta injection, and peaked sharply on day 8, whereas by day 6 IgM secretion had already peaked and IgG1 and IgG2 secretion had attained substantial levels. This observation suggests that: 1) either cells that synthesize large quantities of the secretory form of delta-chain, unlike cells that synthesize large quantities of the secretory forms of gamma-, epsilon-, or alpha-chains, do this without deleting C mu, or, despite the absence of a typical DNA switch sequence between C mu and C delta, controls must exist to effect the C mu deletion and VDJ-C delta joining; and 2) if secreted IgD has a role in the regulation of a humoral immune response it most likely is involved in later processes, such as memory cell generation or response termination, rather than in relatively early processes, such as helper T cell activation.     

Dynamics of lymphocytes and inflammatory cells recruited in liver during murine listeriosis. A cytofluorimetric study.

During primary infection of mice by Listeria monocytogenes, bacterial elimination is dependent on the recruitment of myelomonocytic cells in the infectious foci and the activation of their bactericidal mechanisms through cytokines secreted by Listeria-specific T lymphocytes. The immune events occurring in the liver, one of the main infected organs, have not yet been studied in detail. In the present quantitative study, we describe the dynamics of recruitment of cells belonging to the lymphoid or myelomonocytic lineages in the liver. The different cell populations mobilized into the liver were isolated each day during the course of a sublethal L. monocytogenes infection and their phenotype was characterized by flow cytometry. Three distinct phases of recruitment were observed. 1) During the first day of infection, 17 x 10(6) lymphomyeloid cells were recruited in the liver with a predominance of myelomonocytic cells; 51% of the incoming cells were M1/70+; the NK cell population (detected by the 4D11 antibody) also increased transiently at this period. 2) From day 3 to 5, a high number of myelomonocytic cells infiltrated the liver (13 x 10(6) M1/70+ cells); most of these cells were macrophages (as detected with the macrophage-restricted antibody FA/11 or observed after May-Grünwald Giemsa staining); the antigranulocytic antibodies 7/4 and RB6.8C5 were found to label these mononuclear phagocytes at this period of infection. A subpopulation of Thy-1+ cells (16%) was found to be labeled by the RB6.8C5 antibody in normal liver and, at day 5 and 6, all Thy-1+ cells also bound the RB6.8C5 mAb.3) From day 5 onward, two waves of phenotypically distinct T lymphocytes were observed; the number of CD8+ T lymphocytes (15 x 10(6) cells) increased first at day 5 and peaked on day 7; CD4+ T lymphocytes (6.2 x 10(6) cells) were then recruited with a 2-day delay (on day 7) in the liver.     

Effect of microenvironment on functional activity of murine B-lymphocytes

In contrast to B-splenocytes, murine peritoneal B-cells do not produce or secrete immunoglobulins (Ig). Twenty-four hours after intraperitoneal transfer of splenocytes containing Ig-forming cells (IFC), IFC content in the peritoneal cavity of recipient mice decreases dramatically. This decrease does not depend on the migration of transferred IFC to the spleen (homing); splenectomy has no effect on this process. In order to check whether the lack of IFC in the peritoneal cavity is due to inhibition of synthesis or secretion of Ig, peritoneal cells (contained 4360 IFC/10⁶ cells) of CBA mice were intraperitoneally transferred to CBA/N mice after a 4-day preincubation in vitro. On the next day, ～30% of in vitro transferred IFC were detected in the peritoneal cavity of recipient mice, but on day 4 the IFC content in peritoneum returned to the background level. Repeated in vitro incubation of peritoneal cells of recipient mice restored the IFC number in cultured cells. It means that peritoneal microenvironment inhibits functional activity of murine B-lymphocytes.     

Visualization of focal nuclear sites of DNA repair synthesis induced by bleomycin in human cells

In this study, we examined DNA repair synthesis in human cells treated with the radiomimetic drug bleomycin, which efficiently induces double-strand breaks (DSBs). Using tyramide-biotin to amplify fluorescent signals, discrete nuclear foci from the incorporation of 5-iododeoxyuridine (IdU) were detected in proliferating human cells treated with bleomycin. We believe this comes from the repair of DSBs. An increase in the number of foci (>5 per nucleus) was detected in a major fraction (75%) of non-S-phase cells labeled for 30 min with IdU 1 h after the end of bleomycin treatment. The fraction of cells with multiple IdU-containing foci was found to decrease 18 h after treatment. The average number of foci per nucleus detected 1 h after bleomycin treatment was found to decrease twofold between 1 and 3.5 h, indicating that the foci may be associated with the slow component of DSB repair. The presence of DSBs in bleomycin-treated cells was confirmed using antibodies against phosphorylated histone H2AX (gamma-H2AX), which is strictly associated with this type of DNA damage. After treatment with bleomycin, non-S-phase cells also displayed heterogeneous nuclear foci containing tightly bound proliferating cell nuclear antigen (PCNA), suggesting an ongoing process of unscheduled DNA synthesis. PCNA is known to be involved in base excision repair, but a fraction of the PCNA foci may also be associated with DNA synthesis occurring during the repair of DSBs.     

Gene-Gun-Mediated Transfer of Reporter Genes to Somatic Zebrafish (Danio rerio) Tissues

We describe the use of gene-gun-mediated transfer of luciferase and green fluorescent protein (GFP) reporter genes in zebrafish (Danio rerio). Optimization of DNA transfer parameters indicated highest overall luciferase expression in epidermis and dermis using 1-μm microcarriers and 1 μg of pCMVL plasmid DNA at a delivery pressure of 200 psi. Time course studies revealed luciferase activity peaking at 18 hours and decreasing to 30% of the maximum at day 8 after DNA transfer. Onset of reporter gene (GFP) expression was detected at 13 minutes after DNA delivery, and by 65 minutes approximately 100% of the cells in the target area exhibited GFP expression. No germline association or integration events were detected in a screen of approximately 250,000 zebrafish sperm cells by fluorescence in situ hybridization at 15 or 30 days after delivery of 1 μg of pCMVL DNA, suggesting incidental male germline integration should not be considered as a risk factor when using the biolistic DNA delivery parameters and target tissues described. Received August 20, 1999; accepted January 6, 2000.     

Expression from two Drosophila promoters in embryos of the migratory locust

We have accomplished gene transfer into embryos of Locusta migratoria, the African migratory locust. Freshly oviposited eggs were injected with circular or linear plasmids containing the Drosophila hsp70 promoter and the choramphenicol acetyltransferase (CAT) reporter gene (hsp-cat), or with circular plasmid containing the Drosophila copia promoter fused to CAT (copia-cat). Southern blot analysis showed that the hsp-cat plasmid persisted extrachromosomally for at least 8 days after injection. There was no evidence for plasmid replication. Transient expression from the introduced promoters was determined by monitoring CAT enzyme activity. After injection of hsp-cat, activity was detected at varying levels in 6–8% of day 3 and day 9 embryos. Embryos injected with copia-cat, assayed on day 3, had a greater frequency but no higher level of expression. The described gene transfer system is promising for analysis of other promoters, including those of Locusta.     

Segregation of mouse hemopoietic progenitor cells using the monoclonal antibody,YBM/42

A rat monoclonal antibody, YBM/42, directed against mouse leukocyte common antigen, was used for the analysis and separation of hemopoietic progenitor cells from mouse bone marrow and fetal liver. Cells were fractionated on a FACS-II cell sorter and the resulting subpopulations examined for their morphology and ability to form colonies in agar (for day 7 colonies) and methylcellulose (for day 2 erythroid clones). The antibody bound to all leukocytes, including blast cells and day 7 hemopoietic progenitor cells (day 7 colony forming cells, CFC), but not to erythrocytes or nucleated erythroid cells. This antibody can be used to advantage to enrich for early progenitor cells from mouse fetal liver, in which the majority of cells (70%) are nucleated erythroid cells. In day 12 fetal liver, approximately 10% of all cells bind this antibody strongly and, of these approximately 70% are blast cells. Contained within this positive population are 95% of all day 7 CFC. In the most enriched fraction about 20% of the cells formed day 7 colonies. This represents a 25-fold enrichment over unsorted fetal liver. The negative fractions contain 94% of all cells forming erythroid clones (≥8 cells) on day 2 of culture (day 2 CFU-E). In the most enriched fraction, 20% of the cells are day 2 CFU-E. Day 7 CFC can therefore be well separated from day 2 CFU-E, with good recovery of both cell types, by use of a single label. Day 7 colony forming cells were classified as granulocyte (G-CFC), macrophage (M-CFC), mixed granulocyte/macrophage (GM-CFC), pure erythroid (E), or mixed erythroid (E_mix). A high enrichment for multipotential cells is achieved and constitues 3–5% of cells in the most enriched fraction. Most types of day 7 CFC could not be separated with YMB/42, but GM-CFC and M-CFC exhibit a broader distribution than the other CFC with regard to fluorescence intensity. This implicit heterogeneity in GM-CFC and M-CFC is further substantiated by the finding that myeloid progenitors in the different FACS fractions also share a differential reactivity to different sources of growth factors.     

应用绿色荧光蛋白研究外源基因在造血细胞的表达调控

以增强型绿色荧光蛋白为报道分子,研究双基因逆转录病毒载体介导小鼠骨髓细胞的基因转移中,SV(simianvirus)40启动子和内部核糖体进入位点(internalribosomeentrysite,IRES)对双基因共表达的影响。构建双基因中间序列分别为SV40启动子和IRES的载体pLESN和pLEIN。经包装获得较高滴度的病毒上清,以共培养的方式感染5-氟尿嘧啶预刺激的小鼠骨髓细胞。流式细胞仪检测表明转染效率约25%,PCR证明EGFP基因整合至骨髓细胞基因组。半固体培养转基因细胞7d,LEIN组获得具有G418抗性的集落中98%表达绿色荧光,而LESN组54%。结果表明:在双基因逆转录病毒载体介导的小鼠骨髓细胞的基因转导中,IRES与内部SV40启动子相比,更能保证双基因的共同表达。