Effects of the whole extract and the chromatographic fractions of the pig placenta on lymphocyte proliferation and humoral immune response

The immunoregulatory properties of pig fetal placenta extracts (PE) from 1 st, 2nd and 3rd month of pregnancy and five fractions (F1 to F5), isolated on Sephadex G-200 and additionally characterized by fast performance liquid chromatography, FPLC (Superose 12 HR) were studied in order to clarify the local immune regulation in diffuse epitheliochorial placentation. The obtained substances were added at 6.25 to 100 microg in cultures of Concanavalin A-stimulated mouse splenocytes and Phytohemagglutinin-stimulated pig and human PBL to monitor their influence on [(3)H]Thimidine uptake in proliferating lymphocytes. Their effects on the number of plaque-forming cells in spleen cell suspensions from mice treated ip simultaneously with sheep red blood cells and with 100 microg protein of PE, respectively, of each fraction were also investigated: PE and F1 had no effect while F4 and F5 suppressed the mitogen-induced lymphocyte proliferation in all studied species. F2 and F3 stimulated mouse and pig lymphocyte proliferation. The effects were dose-dependent and the suppression was not due to cytotoxic effects. The FPLC data allowed the suggestion that 110 kD protein(s) were involved in stimulation and 7 kD substance(s) - in suppression of cell proliferation. The PE from the 3 studied periods as well as the 5 fractions increased significantly the primary humoral immune response against T-dependent antigen. The results revealed that trophoblast of epitheliochorial placenta produces simultaneously immuno-stimulatory and -suppressive factors acting across the species barrier. Their presence at the feto-maternal interface may contribute to the regulation of local immune reactions and survival of the allogenic fetuses despite the morphological specificities of this type of placentation.     

Gab1 and SHP-2 promote Ras/MAPK regulation of epidermal growth and differentiation

In epidermis, Ras can influence proliferation and differentiation; however, regulators of epidermal Ras function are not fully characterized, and Ras effects on growth and differentiation are controversial. EGF induced Ras activation in epidermal cells along with phosphorylation of the multisubstrate docking protein Gab1 and its binding to SHP-2. Expression of mutant Gab1Y627F deficient in SHP-2 binding or dominant-negative SHP-2C459S reduced basal levels of active Ras and downstream MAPK proteins and initiated differentiation. Differentiation triggered by both Gab1Y627F and SHP-2C459S could be blocked by coexpression of active Ras, consistent with Gab1 and SHP-2 action upstream of Ras in this process. To study the role of Gab1 and SHP-2 in tissue, we generated human epidermis overexpressing active Gab1 and SHP-2. Both proteins stimulated proliferation. In contrast, Gab1Y627F and SHP-2C459S inhibited epidermal proliferation and enhanced differentiation. Consistent with a role for Gab1 and SHP-2 in sustaining epidermal Ras/MAPK activity, Gab1-/- murine epidermis displayed lower levels of active Ras and MAPK with postnatal Gab1-/- epidermis, demonstrating the hypoplasia and enhanced differentiation seen previously with transgenic epidermal Ras blockade. These data provide support for a Ras role in promoting epidermal proliferation and opposing differentiation and indicate that Gab1 and SHP-2 promote the undifferentiated epidermal cell state by facilitating Ras/MAPK signaling.     

Identification, characterization and crystal structure analysis of the human spliceosomal U5 snRNP-specific 15 kD protein

The U5 small ribonucleoprotein particle (snRNP) contains various proteins involved in catalytic activities mediating conformational rearrangements of the spliceosome. We have isolated and characterized the evolutionarily highly conserved human U5 snRNP-specific protein U5-15kD. The crystal structure of U5-15kD determined at 1.4 A resolution revealed a thioredoxin-like fold and represents the first structure of a U5 snRNP-specific protein known so far. With respect to human thioredoxin the U5-15kD protein contains 37 additional residues causing structural changes which most likely form putative binding sites for other spliceosomal proteins or RNA. Moreover, a novel intramolecular disulfide bond replaces the canonical one found in the thioredoxin family. Even though U5-15kD appears to lack protein disulfide isomerase activity, it is strictly required for pre-mRNA splicing in vivo as we demonstrate by genetic depletion of its ortholog in Saccharomyces cerevisiae. Our data suggest that the previously reported involvement of its Schizosaccharomyces pombe ortholog Dim1p in cell cycle regulation is a consequence of its essential role in pre-mRNA splicing.     

TPO模拟肽与人IgG1 Fc片段的融合表达及其生物学特性研究

依据本室获得的人TPO模拟肽序列,合成了该模拟肽的DNA序列,分别连接至4种不同长度的人IgG1 Fc基因片段的5′端,并克隆至质粒表达载体pET28a( ),转化大肠杆菌BL21（DE3）,筛选获得了4种重组工程菌,其中3种分别高效表达了3种不同长度的融合蛋白,而第4种工程菌未表达,表达的3种融合蛋白的分子量分别约为28kD,12kD和12kD。表达量约占菌体蛋白总量的30％左右,纯化获得了3种TPO模拟肽融合蛋白,3种融合蛋白均有较好的体外活性,维持TPO依赖细胞Ba/F3-mp1生长的EC50分别为：13,10,10nmol/L,用血小板减少症小鼠动物模型,测定了它们的体内活性,3种融合蛋白均有升高血小板和缩短血小板恢复时间的功能,分别比TPO模拟肽活性提高了18,8,8倍,而对白细胞及红细胞无显著影响,分别用3种融合蛋白免疫BALB／c小鼠,均未刺激小鼠产生抗TPO模拟肽抗体,并显示了较好的应用潜力。     

Preparation of squid skin collagen hydrolysate as an antihyaluronidase,antityrosinase, and antioxidant agent

A collagen was isolated from squid skin, a processing waste product. The biofunctional activities of enzymatic squid skin collagen hydrolysates were determined to produce a value-added material. Five low-molecular-mass hydrolysate fractions, F1 (>30 kD), F2 (10–30 kD), F3 (3–10 kD), F4 (1–3 kD), and F5 (<1 kD), were manufactured from its enzymatic hydrolysate by ultrafiltration. Fraction F3 had the strongest antihyaluronidase inhibitory activity. Gly, Val, and Pro were major amino acids in F3, while Met, Tyr, and His were minor ones. The molecular mass of F3 was in the range of 3.4 to 10 kD. F3 exhibited copper chelating ability in a concentration-dependent manner. The ferrous chelating ability of F3 was almost 50% at 200 µg/mL. F3 also inhibited tyrosinase activity by 39.65% at 1 mg/mL. Furthermore, F3 had stronger hydroxyl radical scavenging activity (IC₅₀ = 149.94 µg/mL) than ascorbic acid (IC₅₀ = 212.94 µg/mL). Therefore, the squid collagen hydrolysate can be utilized as a nutraceutical or cosmeceutical agent.     

Opposing Growth Regulatory Roles of Protein Kinase D Isoforms in Human Keratinocytes

PKD is a family of three serine/threonine kinases (PKD-1, -2, and -3) involved in the regulation of diverse biological processes including proliferation, migration, secretion, and cell survival. We have previously shown that despite expression of all three isoforms in mouse epidermis, PKD1 plays a unique and critical role in wound healing, phorbol ester-induced hyperplasia, and tumor development. In translating our findings to the human, we discovered that PKD1 is not expressed in human keratinocytes (KCs) and there is a divergence in the expression and function of other PKD isoforms. Contrary to mouse KCs, treatment of cultured human KCs with pharmacological inhibitors of PKDs resulted in growth arrest. We found that PKD2 and PKD3 are expressed differentially in proliferating and differentiating human KCs, with the former uniformly present in both compartments whereas the latter is predominantly expressed in the proliferating compartment. Knockdown of individual PKD isoforms in human KCs revealed contrasting growth regulatory roles for PKD2 and PKD3. Loss of PKD2 enhanced KC proliferative potential while loss of PKD3 resulted in a progressive proliferation defect, loss of clonogenicity and diminished tissue regenerative ability. This proliferation defect was correlated with up-regulation of CDK4/6 inhibitor p15^INK4B and induction of a p53-independent G1 cell cycle arrest. Simultaneous silencing of PKD isoforms resulted in a more pronounced proliferation defect consistent with a predominant role for PKD3 in proliferating KCs. These data underline the importance and complexity of PKD signaling in human epidermis and suggest a central role for PKD3 signaling in maintaining human epidermal homeostasis.     

Identification of insulin-like growth factor binding proteins from cultured human epidermal keratinocytes

The role and mechanisms of action of insulin-like growth factors (IGFs) in skin remain unclear. Epidermal keratinocytes possess IGF-I receptors and are responsive to IGF-I, which is primarily derived from underlying dermal fibroblasts. IGF binding proteins (IGFBPs), also synthesized by fibroblasts, may be involved in paracrine targeting of IGF-I to its receptors. We therefore examined whether human keratinocytes synthesize IGFBPs and their mRNAs. Following culture in complete medium (containing bovine pituitary extract and epidermal growth factor) Western ligand blotting (WLB) of cell conditioned medium revealed a major band of 32 kD, a less abundant IGFBP of 24 kD at all passages, and a 37–42 kD IGFBP which increased in abundance in late passage. Immunoprecipitation followed by WLB confirmed that the predominant 32 kD band was IGFBP-2. Radioimmunoassay of IGFBP-1, -3, and -6 revealed detectable levels of IGFBP-3 and significant levels of IGFBP-6, but not IGFBP-1. Northern analysis following culture in complete medium revealed that at early passage IGFBP-1, -2, -4, and -6 mRNAs were detectable. IGFBP-3 and -5 mRNAs were not detectable. Following culture in growth factor-free medium a 37–42 kD band, consistent with IGFBP-3, was predominant and a 24 kD band consistent with IGFBP-4 was also present. These data demonstrate the expression of a distinct pattern of IGFBPs by cultured human keratinocytes dependent on culture conditions. Keratinocyte-derived IGFBPs are likely to play a role in the transport and targeting of IGF-I from dermally derived fibroblasts to the epidermis. © 1995 Wiley-Liss, Inc.     

Brain peptides and glial growth. I. Glia-promoting factors as regulators of gliogenesis in the developing and injured central nervous system

Glia-promoting factors (GPFs) are peptides of the central nervous system which accelerate the growth of specific glial populations in vitro. Although these factors were first discovered in the goldfish visual system (Giulian, D., Y. Tomozawa, H. Hindman, and R. Allen, 1985, Proc. Natl. Acad. Sci. USA., 83:4287-4290), we now report similar peptides are found in mammalian brain. The cerebral cortex of rat contains oligodendroglia-stimulating peptides, GPF1 (15 kD) and GPF3 (6 kD), as well as astroglia-stimulating peptides, GPF2 (9 kD) and GPF4 (3 kD). The concentrations of specific GPFs increase in brain during periods of gliogenesis. For example, GPF1 and GPF3 are found in postnatal rat brain during a peak of oligondendroglial growth while GPF2 and GPF4 are first detected at a time of astroglial proliferation in the embryo. Stab wound injury to the cerebral cortices of rats stimulates astroglial proliferation and induces marked elevations in levels of GPF2 and GPF4. Our findings suggest that two distinct classes of GPFs, those acting upon oligodendroglia and those acting upon astroglia, help to regulate cell growth in the developing and injured central nervous system.     

Analysis of the expression of the 4F2 surface antigen in normal and neoplastic fibroblastic human cells of embryonic and adult origin

4F2 monoclonal antibody recognizes a 120-kD glycoprotein on the surface of human spread fibroblastic cells of embryonic and neoplastic origin, but it does not bind to normal spread adult fibroblasts. Flow cytometric analysis reveals that human adult fibroblasts become 4F2-positive when they are analyzed as round-shaped cells; this means that, in normal adult cells, 4F2 antigen behaves as a cryptic molecule. Thus, the basic difference between embryonic, neoplastic and normal adult cells consists in a different organization in the architecture of the cell membrane, since in embryonic and neoplastic cells there is a continuous expression of the 4F2 antigen independently of the cell shape and cell cycle phase. Quantitative flow cytometry shows that the mean surface density (MSD) of the 4F2 antigen 1, does not vary as a function of the cell cycle; 2, is inversely related to cell size and "metabolic time". This suggests that at the plateau phase the surface organization of G1 resting cells changes as a function of the number of days spent in culture; and 3, sarcoma and SV40-transformed cells show significantly increased MSD levels of the 4F2 antigen in comparison with normal cells of similar size. Electrophoretic analysis under reducing conditions confirms the quantitative differences in the expression of the 4F2 antigen described with the cell sorter. It also reveals, in a way different from that previously found with lymphoid cells, the coexistence of two molecules (85 and 73 kD) in the heavy chain regions. The 73 kD is, however, much more strongly expressed in the fibrosarcoma than in the embryonic cells. Finally, it shows that 4F2 antigen is a very useful tool for studying the organization and the structure of the cell membrane of human fibroblasts and can provide new insights to understand better the developmental and transformation processes.     

PTD-hEGF融合蛋白在大肠杆菌中的表达及活性分析

为获得hEGF在大肠杆菌中的高效表达,构建了pPTD-hEGF原核表达载体。将其转化大肠杆菌BL21(DE3),经0.3mmol/LIPTG诱导,PTD-hEGF融合蛋白进行了有效表达,表达产物主要形成了包涵体。经Ni2 -NTA亲和层析纯化,融合蛋白的纯度达99.5%。MALDI-TOF-MS分析证明表达的融合蛋白氨基酸序列完全正确。PTD-hEGF融合蛋白能明显促进HEK-293细胞的分裂和生长。     

A new steroidal 5,7-diene derivative, 3β-hydroxyandrosta-5,7-diene-17β-carboxylic acid, shows potent anti-proliferative activity

The new steroidal 5,7-diene, 3β-hydroxyandrosta-5,7-diene-17β-carboxylic acid (17-COOH-7DA), was synthesized from 21-acetoxypregnenolone, with the oxidative cleavage of the side chain being dependent on the presence of oxygen. In human epidermal (HaCaT) keratinocytes, 17-COOH-7DA inhibited proliferation in a dose-dependent manner, starting at a dose as low as 10⁻¹¹ M. This inhibition was accompanied by decreased expression of epidermal growth factor receptor, bcl2 and cyclin E2 mRNAs and by increased expression of involucrin mRNA. Inhibition of proliferation was associated with slowing of the cell cycle in G1/G0 phases but not with cell death. 17-COOH-7DA was significantly more potent than pregnenolone, 17-COOH-pregnenolone, 17-COOCH₃-7DA and calcitriol. 17-COOH-7DA also inhibited proliferation of normal human epidermal melanocytes and human and hamster melanoma lines, however, with lower potency than for keratinocytes. In normal human dermal fibroblasts 17-COOH-7DA stimulated proliferation in serum-free media but inhibited it in the presence of 5% serum. 17-COOH-7DA inhibited cell colony formation of human and hamster melanoma cells, and induced monocyte-like differentiation of human HL60 leukemia cells. Thus, the new steroidal 5,7-diene, 17-COOH-7DA, can serve as an inhibitor of proliferation of normal keratinocytes and normal and malignant melanocytes, as a condition-dependent regulator of fibroblast proliferation and a stimulator of leukemia cell differentiation.     

Cellular selenoproteins and the effects of selenite on cell proliferation

The incorporation of radioactive selenium into cellular proteins and the effect of selenite on proliferation were examined in human (HeLa, HT-29, and IMR-90) and mouse (3T3 and CMT-93) cell lines. Proteins incorporating selenium were detected by one-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Major polypeptide subunits at 60, 23, 21, 19, and 16 kD were detected in the two tumorigenic and one normal human cell lines. The 23 kD polypeptide migrated to the same position on the gel as the major subunit of human erythrocyte glutathione peroxidase. In the mouse cells, the 60 kD polypeptide was almost entirely absent; four other major selenoproteins were detected, with molecular weights similar to those in the human cells. In both mouse and human cells, the same pattern of selenoproteins was observed irrespective of whether the cells were grown in medium containing 10% fetal bovine serum or in defined medium supplemented with 0.1 or 1 microM selenite, or with 1% serum. The effect of selenite on proliferation of HeLa, HT-29, and CMT-93 cells in medium supplemented with 10% fetal bovine serum and in serum-free medium was examined. At concentrations up to about 1 microM, selenite stimulated proliferation of the human cells slightly in serum-free medium but not in serum-supplemented medium. At concentrations of about 5 microM and higher selenite significantly inhibited proliferation of all cells in both types of media. In CMT-93 cells, this inhibition was greater in serum-free medium, but there were no significant differences in this regard in the human cells. These results demonstrate that selenium is stably incorporated into several polypeptides in human and mouse cells, that there are no significant differences in this regard among several cell lines, and slight differences between human and mouse cells. They further confirm that selenium can have a slight stimulatory effect on cell growth, and a much larger inhibitory effect, depending on its concentration.     

PED/PEA-15 interacts with the 67 kD laminin receptor and regulates cell adhesion, migration, proliferation and apoptosis

Phosphoprotein enriched in diabetes/phosphoprotein enriched in astrocytes-15 kD (PED/PEA-15) is an anti-apoptotic protein whose expression is increased in several human cancers. In addition to apoptosis, PED/PEA-15 is involved in the regulation of other major cellular functions, including cell adhesion, migration, proliferation and glucose metabolism. To further understand the functions of this protein, we performed a yeast two-hybrid screening using PED/PEA-15 as a bait and identified the 67 kD high-affinity laminin receptor (67LR) as an interacting partner. 67 kD laminin receptor is a non-integrin cell-surface receptor for the extracellular matrix (ECM), derived from the dimerization of a 37 kD cytosolic precursor (37LRP). The 67LR is highly expressed in human cancers and widely recognized as a molecular marker of metastatic aggressiveness. The molecular interaction of PED/PEA-15 with 67LR was confirmed by pull-down experiments with recombinant His-tagged 37LRP on lysates of PED/PEA-15 transfected HEK-293 cells. Further, overexpressed or endogenous PED/PEA-15 was co-immunoprecipitated with 67LR in PED/PEA-15-transfected HEK-293 cells and in U-373 glioblastoma cells, respectively. PED/PEA-15 overexpression significantly increased 67LR-mediated HEK-293 cell adhesion and migration to laminin that, in turn, determined PED/PEA-15 phosphorylation both in Ser-104 and Ser-116, thus enabling cell proliferation and resistance to apoptosis. PED/PEA-15 ability to induce cell responses to ECM-derived signals through interaction with 67LR may be of crucial importance for tumour cell survival in a poor microenvironment, thus favouring the metastatic spread and colonization.     

A transforming growth factor-beta like growth factor in mouse embryonal carcinoma cells

Our previous study indicated that polypeptides isolated from acid/ethanol extracts of solid tumors of a cloned F9-3 embryonal carcinoma cells by Bio-Gel P60 column chromatography were found to be able to stimulate anchorage independent growth of either NIH 3T3 cells or NRK 49 F cells in soft agar. The major peak of active elute had a molecular weight of about 15 kDa as determined by SDS-polyacrylamide gel electrophoresis. In the present report we further isolated and purified the active compound corresponding to molecular weight of 15 kDa by gel filteration on Bio-Gel P10 column (Fig. 1) and then by high pressure liquid chromatography (Fig. 2). It was found that the purified 15 kDa molecules showed some properties similar to transforming growth factor-beta (TGF-beta): 1. Colony-stimulating activity in soft agar can be induced in NRK 49 F cells only in the presence of mouse epidermal growth factor (EGF) (Plate I); 2. Increase in relative uptake of 3H-thymidine in NRK 49 F cells occurred in the presence of EGF, but with the same amount of EGF, not much change in 3H-thymidine incorporation could be found with further increasing amounts of purified 15 kDa molecules (Fig. 3); 3. Like human blood platelets derived TGF-beta, inhibition effect on the growth of mink lung epithelial cells (CCL/64) can also be exhibited by purified 15 kDa molecules (Fig. 4). In addition, using ELISA procedure, we have also demonstrated that the 15 kDa molecules had immunological reactivity with the antibody raised against a synthetic oligopeptide identical to the N-terminal residues 1-29 of TGF-beta 1 from human blood platelets (Fig.5). Thus, the 15 kDa molecules isolated from mouse F9-3 embryonal carcinoma cells appeared to share some common antigenic determinants with human TGF-beta 1 molecule. These results taken together provide strong support for the existence of TGF-beta like growth factor in mouse embryonal carcinoma cells.