双链杂交分子“胰岛素—类胰岛素生长因子—I”

以去Ｂ链Ｃ端八肽胰岛素和化学合成的ＩＧＦ－Ｉ的２２－２９及２２－３２为底物,用酶促半合成方法制备了杂交分子“胰岛素－类胰岛素茵子－Ｉ”,Ｉｎｓ／ＩＧＦ－Ｉ和Ｉｎｓ－ＩＧＦ－Ｉ。研究了它们的胰岛中生物活性。结果表明,猪胰岛素Ｂ链Ｃ端Ｂ２７的Ｔｈｒ被Ａｓｎ取代,Ｂ３０的Ａｌａ被Ａｌａ被Ｔｈｒ取代同时Ｂ２５－Ｂ２６及Ｂ２８－Ｂ２９氨基酸顺序颠紧及在Ｂ链Ｃ末端延长３肽都不影响胰岛素的生物活力。     

高受体结合和低免疫原性的[Bl—Ala,B2—Ala]—胰岛素

通过化学半合成从天然猪胰岛素得到［Ｂｌ－Ａｌａ,Ｂ２－Ａｌａ］－胰岛素,这一胰岛素类似物经聚丙烯酰胺凝胶电泳和ＨＰＬＣ鉴定证明是均一的,氨基酸组成与理论值相符,生物活性测定结果表明：［Ｂｌ－Ａｌａ,Ｂ２－Ａｌａ］－胰岛素的体内活力与天然猪胰岛素相同,而与人胎盘细胞膜胰岛素受的结合能力为天然猪胰岛素的１３２％。这一结果进一步说明胰岛素Ｂ链Ｎ端肽段参予与受体相互作用,此外,［Ｂｌ－Ａｌａ,Ｂ２－Ａｌａ     

双链杂交分子“胰岛素－类胰岛素生长因子－I

以去Ｂ链Ｃ端八肽胰岛素（ＤＯＩ）和化学合成的ＩＧＦ－Ｉ的２２～２９（８肽）及２２－３２（１１肽）为底物,用酶促半合成方法制备了杂交分子“胰岛素－类胰岛素生长因子－Ｉ,Ｉｎｓ／ＩＧＦ－Ｉ（８）和Ｉｎｓ／ＩＧＦ－Ｉ（１１）。研究了它们的胰岛素生物活性,结果表明,猪胰岛素Ｂ链Ｃ端Ｂ２７的Ｔｈｒ被Ａｓｎ取代,Ｂ３０的Ａｌａ被Ｔｈｒ取代同时Ｂ２５～Ｂ２６及Ｂ２８－Ｂ２ｋ９氨基酸顺序颠倒以及在Ｂ链Ｃ末端延长３肽（Ｇｌｙ－Ｔｙｒ－Ｇｌｙ）都不影响胰岛素的生物活力。     

A_（8—10）替换的胰岛素类似物的合成及生物活性

本文报道了用Ｆｍｏｃ固相法合成３种胰岛素Ａ链小环（Ａ８－１０）被不同碱性氨基酸取代的Ａ链类似物,并分别与天然胰岛素Ｂ链重组成相应胰岛素类似物;经受体结合,整体活性及抗体结合实验,均表现出相应的活性。从中可以推测出：Ａ链小环区域不是胰岛素表现生物活性的重要部位,而是胰岛素与其抗体结合较重要的区域。     

高受体结合和低免疫原性的［B1—Ala，B2—Ala］－胰岛素

通过化学半合成从天然猪胰岛素得到［Ｂ１－Ａｌａ,Ｂ２－Ａｌａ］胰岛素。这一胰岛素类似物经聚丙烯酰胺凝胶电泳和ＨＰＬＣ鉴定证明是均一的,氨基酸组成与理论值相符生物活性测定结果表明：［Ｂ１－Ａｌａ,Ｂ２－Ａｌａ］－胰岛素的体内活力与天然猪胰岛素相同,而与人胎盘细胞膜胰岛素受体的结合能力为天然猪胰岛素的１３２％。这一结果进一步说明胰岛素Ｂ链Ｎ端肽段参子与受体相互作用。此外,［Ｂ１－Ａｌａ,Ｂ２－Ａｌａ］－胰岛素的免疫活性很低,远小于天然猪胰岛素的４％。     

[B_1Ala,B_2Ala,B_3Lys]-胰岛素的制备和生物活性(英文)

本文报道了胰岛素分子中Ｂ１～３序列（Ｐｈｅ－Ｖａｌ－Ａｓｎ）为Ａｌａ－Ａｌａ－Ｌｙｓ取代的胰岛素类似物制备及其生物性质。［Ｂ１Ａｌａ,Ｂ２Ａｌａ,Ｂ３Ｌｙｓ］－胰岛素仍保留天然胰岛素的全部体内活性和受体结合能力,但体外促脂肪生成活性和免疫活性分别只为胰岛素的７０％和０．８８％。本文还就胰岛素Ｂ链Ｎ端肽段对其结构和功能的影响进行了讨论。     

B8Gly在胰岛素结构模体中的可能作用

在胰岛素结构模体ｎ１－Ｃｙｓ－Ｇｌｙ－Ｘ１０－Ｃｙｓ－ｎ２－Ｃｙｓ－Ｃｙｓ－Ｘ３－Ｃｙｓ－Ｘ８－Ｃｙｓ－ｎ３中,有７个绝对保守的氨基酸残基,只有位于Ｂ８位的是Ｇｌｙ。通过定点突变将其改变为Ａｌａ,得到「Ｂ８Ａｌａ」人胰岛素,其受体结合能力和体内生物活力分别为天然猪胰岛素的２．５％和１０％。「Ｂ８Ａｌａ」人胰岛素和重组人胰岛素的远紫外圆二色谱比较表明,「Ｂ８Ａｌａ」人胰岛素的α－螺旋的相对含量有一家     

[B1Ala,B2Al2,B3Lys]—胰岛素的制备和生物活性

本文报道了胰岛素分子中Ｂ１￣３序列（Ｐｈｅ－Ｖａｌ－Ａｓｎ）为Ａｌａ－Ａｌａ－Ｌｙｓ取代的胰岛素类似物制备及其生物性质。［Ｂ１Ａｌａ,Ｂ２Ａｌａ,Ｂ３Ｌｙｓ］－胰岛素仍保留天然胰岛素的全部体内活性和受体结合能力,但体外促脂肪生成活性和免疫活性分别只为胰岛素的７０％和０．８８％。本文还就胰岛素Ｂ链Ｎ端肽段对其结构和功能的影响进行了讨论。     

重组腺病毒介导的白细胞介素—12（IL—12）在肝癌细胞中的表达

利用腺病毒表达系统在肝癌细胞中成功地表达了有生物活性的白细胞介素－１２（ＩＬ－１２）。ＩＬ－１２的Ｐ３５和Ｐ４０ ｃＤＮＡ分别克隆到腺病毒载体ｐＡＣＣＭＶ．ｐＬｐＡ,构建ｐＡＣ／Ｐ３５和ｐＡＣ／Ｐ４０表面质粒。与腺病毒重组质粒ｐＪＭ１７共转染２９３细胞,通过基因重组产生ＩＬ－１２Ｐ３５和Ｐ４０重组腺病毒。用重组腺病毒感染肝癌细胞株ＨｅｐＧ２和ＳＭＭＣ７７２１,经ＥＬＩＳＡ和Ｗｅｓｔｅｒｎ检测证明,     

A8—10替换的胰岛素似物的合成及生物活性

本文报道了用Ｆｍｏｅ固相法合成３种胰岛素Ａ链小环（Ａ８－１０）被不同碱性氨基酸取代的Ａ链类似物,并分别与天然胰岛素Ｂ链重组成相应胰岛素类似物;经受体结合,整体活性及抗体结合实验,均表现出相应的活性。从中可以推测出：Ａ链小环区域不是胰岛素表现生物活性的重要部位,而是胰岛素与其抗体结合较重要的区域。     

Hemorrhagic toxin from the venom of Agkistrodon bilineatus (common cantil)

1. Hemorrhagic toxin was isolated from Agkistrodon bilineatus (Common cantil) venom using a three-step purification procedure to obtain 32.8 mg of purified hemorrhagic toxin from 700 mg of crude venom. 2. The purified toxin was homogeneous by disc polyacrylamide gel electrophoresis at pH 8.3, and by isoelectric focusing. 3. Hemorrhagic toxin possessed lethal, hemorrhagic and proteolytic activities. These activities of this toxin were inhibited by ethylenediaminetetraacetic acid (EDTA) and ethyleneglycol-bis-(beta-aminoethylether)N,N'-tetraacetic acid (EGTA), but not by cysteine or soybean trypsin inhibitor (SBTI). 4. Its molecular weight was approximately 48 kDa and the isoelectric point was 4.2. 5. Purified preparation hydrolyzed the Asn(3)--Gln(4), His(10)--Leu(11), Ala(14)--Leu(15), Tyr(16)--Leu(17), Arg(22)--Gly(23) and Phe(24)--Phe(25) bonds of oxidized insulin B. chain. 6. The A alpha chain of fibrinogen was first split and B beta chain was cleaved later by this toxin. 7. Hemorrhagic toxin contains 1 mol of zinc and 2 mol of calcium per mol of protein.     

Characterization of Ac1-Proteinase from the venom of Agkistrodon acutus (Hundred-pace snake) from Taiwan

1. Ac1-Proteinase from the venom of Agkistrodon acutus was isolated in a homogeneous form by a previously published method. 2. Ac1-Proteinase possessed lethal, hemorrhagic, caseinolytic, azocaseinolytic, azoalbumin hydrolytic and hide powder azure hydrolytic activities. 3. The toxin also hydrolyzed the oxidized B chain of insulin and fibrinogen. The cleavage sites in the oxidized B chain of insulin were identified as Ala(14)-Leu(15) and Tyr(16)-Leu(17). The A alpha chain of fibrinogen was digested. 4. Biological properties of Ac1-Proteinase were investigated further and are reported in this paper.     

Characterization of Ac3-proteinase from the venom of Agkistrodon acutus (hundred-pace snake)

Ac3-Proteinase from the venom of Agkistrodon acutus was isolated in a homogeneous form by a previously published method. Ac3-Proteinase possessed lethal, hemorrhagic, caseinolytic, azocaseinolytic, dimethylcaseinolytic and hide powder azure hydrolytic activities. These activities were inhibited when Ac3-Proteinase was incubated with the metal chelators ethylenediaminetetraacetic acid (EDTA), ethyleneglycol-bis-(beta-aminoethyl ether)-N,N'-tetraacetic acid (EGTA), tetraethylenepentamine (TEP), 1,10-phenanthroline, phosphoramidon or beta-mercaptoethanol. The toxin also hydrolyzed the oxidized A and B chains of both insulin and fibrinogen. The cleavage sites in the oxidized B chain of insulin were identified as His(10)-Leu(11), Ala(14)-Leu(15), Tyr(16)-Leu(17) and Phe(24)-Phe(25). The A alpha chain of fibrinogen was digested first followed by hydrolysis of the B beta chain. Toxicological and biochemical properties of Ac3-Proteinase were investigated further and are reported in this paper.     

Key motif to gain selectivity at the neuropeptide Y5-receptor: structure and dynamics of micelle-bound [Ala31, Pro32]-NPY

The structure of [Ala(31), Pro(32)]-NPY, a neuropeptide Y mutant with selectivity for the NPY Y(5)-receptor (Cabrele, C., Wieland, H. A., Stidsen, C., Beck-Sickinger, A. G., (2002) Biochemistry XX, XXXX-XXXX (companion paper)), has been characterized in the presence of the membrane mimetic dodecylphosphocholine (DPC) micelles using high-resolution NMR techniques. The overall topology closely resembles the fold of the previously described Y(5)-receptor-selective agonist [Ala(31), Aib(32)]-NPY (Cabrele, C., Langer, M., Bader, R., Wieland, H. A., Doods, H. N., Zerbe, O., and Beck-Sickinger, A. G. (2000) J. Biol. Chem 275, 36043-36048). Similar to wild-type neuropeptide Y (NPY) and [Ala(31), Aib(32)]-NPY, the N-terminal residues Tyr(1)-Asp(16) are disordered in solution. Starting from residue Leu(17), an alpha helix extends toward the C-terminus. The decreased density of medium-range NOEs for the C-terminal residues resulting in larger RMSD values for the backbone atoms of Ala(31)-Tyr(36) indicates that the alpha helix has become interrupted through the [Ala(31), Pro(32)] mutation. This finding is further supported by (15)N-relaxation data through which we can demonstrate that the well-defined alpha helix is restricted to residues 17-31, with the C-terminal tetrapeptide displaying increased flexibility as compared to NPY. Surprisingly, increased generalized order parameter as well as decreased (3)J(HN)(alpha) scalar coupling constants reveal that the central helix is stabilized in comparison to wild-type NPY. Micelle-integrating spin labels were used to probe the mode of association of the helix with the membrane mimetic. The Y(5)-receptor-selective mutant and NPY share a similar orientation, which is parallel to the lipid surface. However, signal reductions due to efficient electron, nuclear spin relaxation were much less pronounced for the surface-averted residues in [Ala(31), Pro(32)]-NPY when compared to wild-type DPC-bound NPY. Only the signals of residues Asn(29) and Leu(30) were significantly more reduced in the mutant. The postulation of a different membrane binding mode of [Ala(31), Pro(32)]-NPY is further supported by the faster H/D exchange at the C-terminal amide protons. We conclude that arginine residues 33 and 35, which are believed to be directly involved in forming contacts to acidic receptor residues at the membrane-water interface, are no longer fixed in a well-defined conformation close to the membrane surface in [Ala(31), Pro(32)]-NPY.     

Serine proteinase from Cucurbita ficifolia seed; purification, properties, substrate specificity and action on native squash trypsin inhibitor (CMTI I)

A proteinase was purified from resting seeds of Cucurbita ficifolia by ammonium sulfate fractionation and successive chromatography on CM-cellulose, Sephacryl S-300 and TSK DEAE-2SW (HPLC) columns. Inhibition by DFP and PMSF suggests that the enzyme is a serine proteinase. The apparent molecular mass of this enzyme is ca. 77 kDa. The optimum activity for hydrolysis of casein and Suc-Ala-Ala-Pro-Phe-pNA is around pH 10.5. The following peptide bonds in the oxidized insulin B-chain were hydrolysed by the proteinase: Phe1-Val2, Asn3-Gln4, Gln4-His5, Cya7-Gly8, Glu13-Ala14, Ala14-Leu15, Cya19-Gly20, Pro28-Lys29 and Lys29-Ala30. The proteinase is more selective towards the native squash seed trypsin inhibitor (CMTI I) and primarily cuts off only its N-terminal arginine. The inhibitor devoided of the N-terminal arginine residue is still active against trypsin.     

Determination of alpha-helix N1 energies after addition of N1, N2, and N3 preferences to helix/coil theory

Surveys of protein crystal structures have revealed that amino acids show unique structural preferences for the N1, N2, and N3 positions in the first turn of the alpha-helix. We have therefore extended helix-coil theory to include statistical weights for these locations. The helix content of a peptide in this model is a function of N-cap, C-cap, N1, N2, N3, C1, and helix interior (N4 to C2) preferences. The partition function for the system is calculated using a matrix incorporating the weights of the fourth residue in a hexamer of amino acids and is implemented using a FORTRAN program. We have applied the model to calculate the N1 preferences of Gln, Val, Ile, Ala, Met, Pro, Leu, Thr, Gly, Ser, and Asn, using our previous data on helix contents of peptides Ac-XAKAAAAKAAGY-CONH2. We find that Ala has the highest preference for the N1 position. Asn is the most unfavorable, destabilizing a helix at N1 by at least 1.4 kcal mol(-1) compared to Ala. The remaining amino acids all have similar preferences, 0.5 kcal mol(-1) less than Ala. Gln, Asn, and Ser, therefore, do not stabilize the helix when at N1.     

一种重组抗胰蛋白酶单体人胰岛素突变体的设计、制备和鉴定

用缺口双链DNA的定向突变方法分别将胰岛素前体中B链第 2 2、2 8、2 9和 3 0位改变为Asp、Lys、Pro和Lys,酵母分泌表达的前体经胰蛋白酶直接酶切 ,得到重组 [B2 2Asp、B2 8Lys、B2 9Pro、B3 0Lys]人胰岛素。它与受体的结合能力约为猪胰岛素的 6% ,而体内生物活力保留 5 0 %。通过FPLC分子筛测定其自身结合能力 ,在生理条件下浓度达 10 -4mol/L时它以单体形式存在。作为可抗胰蛋白酶酶解的单体胰岛素类似物 ,它可能具有一定的应用前景     

17O, 14N and 15N n.m.r. studies of the Co2+ complexes of cyclo(Pro17O-Gly15N) and cyclo(Gly17O-Pro) in aqueous solution

The complexation of cyclo(Pro17O-Gly15N) and cyclo(Gly17O-Pro) with Co2+ ions has been studied by 17O, 14N and 15N n.m.r. spectroscopy in aqueous solution. 17O, 14N and 15N transverse relaxation times and chemical shifts were measured as a function of temperature. The 17O n.m.r. studies unequivocally demonstrate that the cobaltous ion binds to the peptide oxygen of both compounds. The hyperfine coupling constant and the peptide residence times were found to be A = -0.165 MHz and -0.145 MHz, tau m = 16, and 92 microseconds for cyclo(Pro17O-Gly15N) and cyclo(Gly17O-Pro), respectively. The 14N and 15N studies of labeled cyclo(Pro17O-Gly15N) do not indicate binding at either the Gly15N or the Pro14N site.     

The relationship between the connecting peptide of recombined single chain insulin and its biological function

To investigate the relationship between the biological activity of recombined single chain insulin and the length of the connecting peptide, we designed and prepared three single chain insulin molecules, namely, PIP, [A]5PIP and [A]10PIP, by site-directed mutagenesis, in which B30 and A1 were linked through dipeptide A-K, heptapeptide A-A-A-A-A-A-K, and dodecapeptide A-A-A-A-A-A-A-A-A-A-A-K, respectively. Their receptor binding capacities were 0.14%, 14.3% and 11.1% of that of insulin respectively and their in vivo biological activities were in consistence with their receptor binding capacity; whereas their growth promoting activities were 17%, 116.3% and 38% of that of insulin. These results suggested the following conclusions. (i) The recombined single chain insulin could also possess the same metabolic and mitogenic function as insulin. (ii) The receptor binding capacity of recombined single chain insulin to insulin receptor was closely related to the length and amino acid composition of the connectin