分泌载体pUS186的构建及地衣杆菌α－淀粉酶基因在枯草杆菌中的表达和分泌

利用枯草杆菌的分泌系统构建分泌型表达载体表达和分泌外源基因产物具有重要的商业价值。我们用鸟枪法克隆了枯草杆菌染色体的启动子和信号肽序列,将克隆的序列连接到能在枯草杆菌中复制的质粒ｐＵＢ１８上,获得分泌型表达载体ｐＵＳ１８６。为了测试构建的载体ｐＵＳ１８６的功能,将地衣杆菌α－淀粉酶基因的缺失了启动子和信号肽序列的片段重组进该质粒,经过Ｂａｌ３１酶切,Ｔ４ＤＮＡ聚合酶补齐等处理,获得ｐＵＳＡ１８６Ⅱ及ｐＵＳＡ１８６Ⅰ系列质粒,将这些重组质粒转化枯草杆菌ＱＢ１１３０（ａｍｙ－）后都能向胞外分泌淀粉酶,酶活测定结果表明,基因表达水平比用原有的启动子高１－２倍,蛋白质分泌率在８４－９６％之间。     

细菌Ⅵ型分泌系统效应蛋白的装配及功能的研究进展

蛋白分泌作为细胞之间传递信号的途径之一,在微生物生存竞争中也扮演着重要的角色。革兰氏阴性菌可以通过Ⅵ型分泌系统(type Ⅵ secretion system, T6SS)将效应蛋白传递至胞外或原核和真核微生物中,从而介导微生物间的竞争或宿主-细菌的相互作用,最终建立竞争优势。本文主要总结了T6SS的结构与组成,并重点对效应蛋白的装配以及其与免疫蛋白的作用机制的研究进展进行阐述,为以后靶向T6SS抗菌药物的研制提供新思路。     

Heat shock in mechanically wounded carrot root disks causes destabilization of stable secretory protein mRNA and dissociation of endoplasmic reticulum lamellae

In many organisms, the synthesis of heat shock proteins during heat shock is concomitant with the cessation of at least a portion of normal cellular protein synthesis. Heat shocked barley aleurone layers selectively stop the synthesis and secretion of secretory proteins. Exposure to 40°C causes a disruption of endoplasmic reticulum (ER) lamellae, which we have hypothesized leads to the destabilization of otherwise stable mRNA previously associated with ER‐bound polyribosomes. We report here that this was also observed in wounded carrot ( Daucus carota L.) root parenchyma tissue which synthesizes and secretes cell wall proteins when mechanically wounded. Nondenaturing cationic polyacrylamide gel electrophoresis of radiolabeled proteins indicated that heat shock caused the cessation of the synthesis and secretion of extensin, a hydroxyproline‐rich cell wall glycoprotein. Northern blot analyses indicated that the mRNA levels for both extensin and another cell wall protein (p33) were rapidly diminished during heat shock. Under nonheat shock conditions extensin mRNA had a half‐life of greater than 4 h, but this appeared to be reduced to less than 30 min during heat shock. There was also a concomitant dissociation of ER lamellae in wounded, heat shocked carrot root tissue, as observed by transmission electron microscopy. These observations indicate that this response may be universal among plant secretory tissues.     

Chemico-structure of the organophosphatic shells of siphonotretide brachiopods

The organophosphatic shell of siphonotretide brachiopods is stratiform with orthodoxly secreted primary and secondary layers. The dominant apatitic constituents of the secondary layer are prismatic laths and rods arranged in monolayers (occasionally in cross-bladed successions), normally recrystallized as platy laminae. Sporadically distributed, interlaminar, lenticular chambers, containing apatitic meshes of laths and aggregates of plates and spherulites, probably represent degraded, localized exudations of glycosaminoglycans (GAGs) with dispersed apatite.
The shells of Helmersenia and Gorchakovia are perforated by canals with external depressions (antechambers) that possibly contained chitinous tubercles in vivo . The immature shell of Siphonotreta and most other siphonotretids is similarly perforated and pitted; but the mature part bears recumbent, rheomorphic, hollow spines that grew forward out of pits. Internally, spines pierce the shell as independent structures to terminate as pillars in GAGs chambers. Spines and pillars were probably secreted by collectives of specialized cells (acanthoblasts) within the mantle.
The shell of the oldest siphonotretide, Schizambon , is imperforate but the ventral valve has a pedicle foramen that lies forward of the posterior margin of the juvenile valve. This relationship characterizes all siphonotretides, suggesting that the pedicle, in vivo , originated within the ventral outer epithelium and not from the posterior body wall as in lingulides.     

Salt gland function in the common eider duck (Somateria mollissima)

The function of the supra-orbital salt gland was studied in the common eider duck (Somateria mollissima). The maximum salt-secreting capacity was determined in (1) wild ducks which had been living in a marine environment, (2) ducks reared in captivity on fresh water, and (3) ducks from group 2 adapted to salt water. The maximum secreting capacity was found by infusing a solution of NaCl (1000 mosmol·kg^-1) at increasing rates, from 0.691 to 1.671 mosmol·min^-1. Freshwater-adapted ducks secreted at a maximum rate of 0.785 mosmol·min^-1 (1500 mosmol·kg^-1). Adapted to salt water they increased their capacity, and the best duck secreted at a rate of 1215 mosmol·min^-1 (1600 mosmol·kg^-1). The best wild duck secreted at a rate of 1516 mosmol·min^-1. Ducks in group 3 were used to examine the response to a hyperosmotic or an isoosmotic infusion. The amount of salt (NaCl) given per unit time was the same. Given a hyperosmotic solution their salt glands secreted at a high rate: 30 min after the infusion had stopped the ducks had excreted 94% of the sodium infused, 92.9% via the salt gland. Given an isoosmotic solution they secreted at a rate about half the infusion rate: 30 min after cessation of infusion they had excreted 73% of the sodium, 42.9% via the salt gland and the rest by the kidneys.Abbreviations A II angiotensin II - AV I arginine vasotocin - ED freshwater-adapted ducks - FW fresh water - SD saltwater-adapted ducks - SW sea water - WD wild ducks     

Effects of peptide YY and its analogues on chloride ion secretion in fed and fasted rat jejunum

The aim of our study was to determine whether a meal modifies the antisecretory response induced by PYY and the structural requirements to elicit antisecretory effects of analogue PYY(22–36) for potential antidiarrhea therapy. The variations in short-circuit current (Isc) due to the modification of ionic transport across the rat intestine were assessed in vitro, using Ussing chambers. In fasted rats, PYY induced a dose- and time-dependent reduction in Isc, with a sensitivity threshold at 5 × 10⁻¹¹ M (ΔIsc −2 ± 0.5 μA/cm²). The reduction was maximal at 10⁻⁷ M (Isc −23 ± 2 μA/cm²), and the concentration producing half-maximal inhibition was 10⁻⁹ M. At 10⁻⁷ M, reduction of Isc by PYY reached 90% of response to 5 × 10⁻⁵ M bumetanide. The PYY effect was partly reversed by 10⁻⁵ M forskolin (Isc +13.43 ± 2.91 μA/h·cm², p < 0.05) or 10⁻³ M dibutyryl adenosine 3′,5′ cyclic monophosphate (Isc +12 ± 1.69 μA/cm², p < 0.05). Naloxone and tetrodotoxin did not alter the effect of PYY. In addition, PYY and its analogue P915 reduced net chloride ion secretion to 2.85 and 2.29 μEq/cm² (p < 0.05), respectively. The antisecretory effect of PYY was accompanied by dose- and time-dependent desensitization when jejunum was prestimulated by a lower dose of peptide. The antisecretory potencies exhibited by PYY analogues required both a C-terminal fragment (22–36) and an aromatic amino acid residue (Trp or Phe) at position 27. At 10⁻⁷ M the biological activity of PYY was lower in fed than fasted rats (p < 0.001). Our results confirm the antisecretory effect of PYY, but show that the fed period is accompanied by desensitization, similar to the transient desensitization observed in the fasted period with cumulative doses. This suggests that PYY may act as a physiological mediator that reduces intestinal secretion.     

Immortalized hypothalamic luteinizing hormone-releasing hormone (LHRH) neurons: A new tool for dissecting the molecular and cellular basis of LHRH physiology

Summary 1. Two LHRH neuronal cell lines were developed by targeted tumorigenesis of LHRH neuronsin vivo. These cell lines (GN and GT-1 cells) represent a homogeneous population of neurons. GT-1 cells have been further subcloned to produce the GT1-1, GT1-3, and GT1-7 cell lines. While considerable information is accumulating about GT-1 cells, very little is currently known about the characteristics and responses of GN cells.2. By both morphological and biochemical criteria, GT-1 cells are clearly neurons. All GT-1 cells immunostain for LHRH and the levels of prohormone, peptide intermediates, and LHRH in the cells and medium are relatively high.3. GT-1 cells biosynthesize, process, and secrete LHRH. Processing of pro-LHRH appears to be very similar to that reported for LHRH neuronsin vivo. At least four enzymes may be involved in processing the prohormone to LHRH.4. LHRH neurons are unique among the neurons of the central nervous system because they arise from the olfactory placode and grow back into the preoptic-anterior hypothalamic region of the brain. Once these neurons reach this location, they send their axons to the median eminence. With respect to the immortalized neurons, GN cells were arrested during their transit to the brain. In contrast, GT-1 cells were able to migrate to the preoptic-anterior hypothalamic region but were unable correctly to target their axons to the median eminence. These problems in migration and targeting appear to be due to expression of the simian virus T-antigen.5. While GT-1 cells are a homogeneous population of neurons, they are amenable to coculture with other types of cells. Coculture experiments currently under way should help not only to reveal some of the molecular and cellular cues that are important for neuronal migration and axonal targeting, but they should also highlight the nature of the cellular interactions which normally occurin situ.6. GT-1 cells spontaneously secrete LHRH in a pusatile manner. The interpulse interval for LHRH from these cells is almost identical to that reported for release of LH and LHRHin vivo. GT-1 cells are interconnected by both gap junctions and synapses. The coordination and synchronization of secretion from these cells could occur through these interconnections, by feedback from LHRH itself, and/or by several different compounds that are secreted by these cells. One such compound is nitric oxide.7. GT-1 cells have Na⁺, K⁺, Ca²⁺, and Cl^– channels. Polymerase chain reaction experiments coupled with Southern blotting and electrophysiological recordings reveal that GT-1 cells contain at least five types of Ca²⁺ channels. R-type Ca²⁺ channels appear to be the most common type of channel and this channel is activated by phorbol esters in the GT-1 cells.8. LHRH is secreted from GT-1 cells in response to norepinephrine, dopamine, histamine, GABA (GABA-A agonists), glutamate, nitric oxide, neuropeptide Y, endothelin, prostaglandin E₂, and activin A. Phorbol esters are very potent stimulators of LHRH secretion. Inhibition of LHRH release occurs in response to LHRH, GABA (GABA-B agonists), prolactin, and glucocorticoids.9. Compared to secretion studies, far fewer agents have been tested for their effects on gene expression. All of the agents which have been tested so far have been found either to repress LHRH gene expression or to have no effect. The agents which have been reported to repress LHRH steady-state mRNA levels include LHRH, prolactin, glucocorticoids, nitric oxide, and phorbol esters. While forskolin stimulates LHRH secretion, it does not appear to have any effect on LHRH mRNA levels.     

Angiotensin II Receptor Type I-Regulated Anion Secretion in Cystic Fibrosis Pancreatic Duct Cells

The β-adrenergic (cAMP-dependent) regulation of Cl⁻ conductance is defective in cystic fibrosis (CF). The present study explored alternative regulation of anion secretion in CF pancreatic ductal cells (CFPAC-1) by angiotensin II (AII) using the short-circuit current (I _SC ) technique. An increase in I _SC could be induced in CFPAC-1 cells by basolateral or apical application of AII in a concentration-dependent manner (EC₅₀ at 3 μm and 100 nm, respectively). Angiotensin receptor subtypes were identified using specific antagonists, losartan and PD123177, for AT₁ and AT₂ receptors, respectively. It was found that losartan (1 μm) could completely inhibit the AII-induced I _SC , whereas, PD123177 exerted insignificant effect on the I _SC , indicating predominant involvement of AT₁ receptors. The presence of AT₁ receptors in CFPAC-1 cells was also demonstrated by immunohistochemical studies using specific antibodies against AT₁ receptors. Confocal microscopic study demonstrated a rise in intracellular Ca²⁺ upon stimulation by AII indicating a role of intracellular Ca²⁺ in mediating the AII response. Depletion of intracellular but not extracellular pool of Ca²⁺ diminished the AII-induced I _SC . Treatment of the monolayers with a Cl⁻ channel blocker, DIDS, markedly reduced the I _SC , indicating that a large portion of the AII-activated I _SC was Cl⁻-dependent. AII-induced I _SC was also observed in monolayers whose basolateral membranes had been permeabilized by nystatin, suggesting that the I _SC was mediated by apical Cl⁻ channels. Our study indicates an AT₁-mediated Ca²⁺-dependent regulatory mechanism for anion secretion in CF pancreatic duct cells which may be important for the physiology and pathophysiology of the pancreas. Received: 17 June 1996/Revised: 14 November 1996     

Fluid Recirculation in Necturus Intestine and the Effect of Alanine

Previous studies in our laboratory have shown that Na absorption across the porcine endometrium is stimulated by PGF_2α and cAMP-dependent activation of a barium-sensitive K channel located in the basolateral membrane of surface epithelial cells. In this study, we identify and characterize this basolateral, barium-sensitive K conductance. Porcine uterine tissues were mounted in Ussing chambers and bathed with KMeSO₄ Ringer solution. Amphotericin B (70 μm) was added to the luminal solution to permeabilize the apical membrane and determine the current-voltage relationship of the basolateral K conductance after activation by 100 μm CPT-cAMP. An inwardly rectifying current was identified which possessed a reversal potential of −53 mV when standard Ringer solution was used to bathe the serosal surface. The K:Na selectivity ratio was calculated to be 12:1. Administration of 5 mm barium to the serosal solution completely inhibited the current activated by cAMP under these conditions. In addition to these experiments, amphotericin-perforated whole cell patch clamp recordings were obtained from primary cultures of porcine surface endometrial cells. The isolated cells displayed an inwardly rectifying current under basal conditions. This current was significantly stimulated by CPT-cAMP and blocked by barium. These results together with our previous studies demonstrate that cAMP increases Na absorption in porcine endometrial epithelial cells by activating an inwardly rectifying K channel present in the basolateral membrane. Similar patch clamp experiments were conducted using cells from a human endometrial epithelial cell line, RL95-2. An inwardly rectifying current was also identified in these cells which possessed a reversal potential of −56 mV when the cells were bathed in standard Ringer solution. This current was blocked by barium as well as cesium. However, the current from the human cells did not appear to be activated by cAMP, indicating that distinct subtypes of inwardly rectifying K channels are present in endometrial epithelial cells from different species. Received: 6 February 1997/Revised: 10 July 1997