The Influence of Topology and Glycosylation on the Fate of Heterologous Secretory Proteins Made in <i>Xenopus</i> Oocytes

Colman, Alan; Lane, Charles D.; Craig, Roger K.; Boulton, A P; Mohun, Tim; Morser, John

doi:10.1111/j.1432-1033.1981.tb05072.x

Cited by 84 publications

(38 citation statements)

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“…Both approaches demonstrate that the synthesis of membrane and secretory proteins is tightly coupled to sequestration and core glycosylation at the level of the endoplasmic reticulum, and that these mechanisms are common to many cell types [ 5 ] . Recent studies on the mechanisms of secretion using Xenopus oocytes also demonstrate that intracellular events subsequent to sequestration must be common to different cell types, and that the posttranslational addition of prosthetic groups, such as the glycosylation of known glycoproteins, is not required to ensure secretion [6].…”

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confidence: 99%

Characterisation of a Membrane‐Bound Serine‐Specific Casein Kinase Isolated from Lactating Guinea‐Pig Mammary Gland

Pascall

Boulton

Craig

1981

European Journal of Biochemistry

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Serine-specific and threonine-specific casein kinase activities have been identified in a Golgi-enriched membrane fraction isolated from the lactating guinca-pig mammary gland. The serine-specific cascin kinase has been purified 2000-fold by affinity chromatography on ATP-agarose. The enzyme has an estimated M , of I00000 as determined by sucrose gradient centrifugation and phosphorylates the serine residues of dephosphorylated guinea-pig caseins A and B in a qualitatively and quantitatively identical manner to caseins A and B secreted by lactating mammary gland explants in organ culture. The enzyme also phosphorylates casein C at serine, but not threonine residues. Studies on the relative location of the enzyme within a Golgi-enriched membrane fraction show that it is an integral component of the membrane, either in the form of a transmembrane protein or exposed on the luminal side of the membrane. Although casein kinase activity is not associated with the endoplasmic reticulum, it remains to be proven whether it is truly a Golgi enzyme, since analysis of subcellular meinbrane components fractionated by sucrose gradient centrifugation shows that the particulate protein kinase activity of the lactating mammary gland does not cosediinent with galactosyl transferase, possibly a reflection of the heterogeneous nature of mammary gland Glogi apparatus. It seems likely that the serine-specific casein kinase activity described is responsible for the phosphorylation of caseins in the lactating guinea-pig mammary gland, and that this occurs after the sequestration of processed but unphosphorylated caseins within the lumen of the endoplasmic reticulum.Our understanding of the intracellular events involved in the synthesis, sequestration, post-translational modification and secretion of proteins has improved dramatically in recent years. This has been due to the development of mRNAdirected cell-free protein-synthesizing systems [I, 21, and the discovery that the injection of secretory protein mRNAs into Xerzopus oocytes results in sequestration and secretion of the translation product [3,4]. Both approaches demonstrate that the synthesis of membrane and secretory proteins is tightly coupled to sequestration and core glycosylation at the level of the endoplasmic reticulum, and that these mechanisms are common to many cell types [ 5 ] . Recent studies on the mechanisms of secretion using Xenopus oocytes also demonstrate that intracellular events subsequent to sequestration must be common to different cell types, and that the posttranslational addition of prosthetic groups, such as the glycosylation of known glycoproteins, is not required to ensure secretion [6].Milk proteins are synthesized and secreted in large amounts by the lactating mammary gland. A large proportion comprises a well characterised family of phosphoproteins, the caseins (see [7]). In the guinea-pig, three major caseins have been identified and partially characterised [8], though recent application of recombinant DNA technology has identified additional var...

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Characterisation of a Membrane‐Bound Serine‐Specific Casein Kinase Isolated from Lactating Guinea‐Pig Mammary Gland

Pascall

Boulton

Craig

1981

European Journal of Biochemistry

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“…Glycosylation by the oocyte system can be inhibited with tunicamycin, an antibiotic which inhibits asparagine-dependent glycosylation. Colman et al (8) found that tunicamycin-treated oocytes produced a smaller form of ovalbumin than is found in vivo. A similar result has been obtained with the G I storage protein of bean.…”

Section: Discussionmentioning

confidence: 99%

“…Usually, glycosylation accompanies cleavage of the signal peptide, but as has been shown by Bielinska, Blobel, and Colman, cleavage can occur when glycosylation is inhibited (2,6,8). Prevention of glycosylation in vitro has been accomplished by isolating signal peptidase activity from membranes by treatment with detergent.…”

Section: Discussionmentioning

confidence: 99%

“…Even if wheat a-amylase were glycosylated at the level seen for the barley protein, we would probably not detect the 290-dalton difference with our gel system. Lane et al (8,23) have shown that oocytes programmed with heterologous RNA from secretory proteins are able to translate, process, and secrete these proteins into the incubation medium.…”

Section: Discussionmentioning

confidence: 99%

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In Vitro Synthesis and Processing of Wheat α-Amylase

Boston¹,

Miller²,

Mertz³

et al. 1982

Plant Physiol.

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Wheat (Triticum aestivum) RNA was used to program synthesis of the a-amylase protein by Xenopus laevis oocytes. A 41,500-dalton protein was made which was identified as a-amylase by immunoprecipitation with rabbit anti-a-amylase antiserum raised against the purified wheat protein and by its co-migration with authentic a-amylase on sodium dodecyl sulfate polyacrylamide gels. Synthesis of a-amylase was dependent upon injection of RNA extracted from gibberellic acid-induced aleurone layers from wheat. The amount of a-amylase produced was proportional to the amount of RNA injected and reached a plateau within 4 hours after injection. When the same RNA was translated in a wheat germ cell-free translation system, a 43,000-dalton protein was produced. Addition of dog pancreas microsomal membranes to the wheat germ translation system resulted in processing of the a-amylase protein to a form which co-migrated with authentic a-amylase purified from malted wheat and with the protein synthesized in oocytes.

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“…The half-lives recorded (Table 1) The influence of secondary modification of protein stability can be studied using pairs of proteins differing only in, for example, their degree of N-glycosylation or phosphorylation. Tunicamycin-treated oocytes [8] Fig. 1 C: in the experiment shown in B exported frog proteins are swamped by chicken proteins.)…”

Section: The Influence Of Detachable Signal Sequences and Secondary Mmentioning

confidence: 99%

Signal sequences, secondary modification and the turnover of miscompartmentalized secretory proteins in Xenopus oocytes

Lane¹,

Champion

Craig

1983

European Journal of Biochemistry

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The cytoplasm of the Xenopus oocyte can be altered by the microinjection of proteins and the regulatory responses to such perturbations can then be studied. We have investigated proteolytic systems within the oocyte which may be involved in the maintenance of the integrity of the different subcellular compartments. Thus primary translation products, made in the wheat germ system under the direction of frog liver, chicken oviduct, rat liver rapidly sedimenting endoplasmic reticulum, rat seminal vesicle, guinea pig mammary gland or honey been venom gland RNA, were injected into oocytes. Their stability in the frog cell cytosol was in general low compared to that of their processed counterparts. The latter were usually obtained by collecting the heterologous proteins exported by RNAinjected oocytes. Electrophoretic analysis of oocytes injected with particular primary and processed polypeptides permitted measurement of the stabilities of proteins differing only by the presence or absence of a detachable signal sequence, or by the presence of a specific secondary modification. The effect of the latter on protein stability appears slight. However, the presence of a detachable signal sequence destabilizes those miscompartmentalized secretory proteins which are otherwise stable. Indeed all other results are consistent with this concept for they show that primary translation products are in general much less and are never more stable than their processed counterparts. Thus we provide evidence that errors of compartmentation can be corrected in living cells and that this process is often facilitated by the properties conferred on a protein by a detachable signal sequence. WI. MATERIALS AND METHODSRadioactive proteins were injected into oocytes and their stabilities measured [7] : thus wheat germ extracts and oocyte incubation media were made 10 mM in methionine, were Abbreviation. SDS, sodium dodecyl sulphate.frozen, thawed and, without further treatment (thereby avoiding further possible denaturation artefacts), the protein solutions were introduced into the oocyte cytosol. In most experiments, a given protein solution was only thawed once: and, in certain experiments designed to control against denaturation artefacts, samples were injected without prior freezing. The recipient cells were both preincubated (4 h) and incubated in medium containing 15 mM methionine, thus preventing reincorporation of radioactive amino acid. The same micropipette, calibrated to contain about 350nl of solution, was used in a given series of stability measurements. Two pipettefuls of solution, yielding about 14 injected oocytes, were used for each time point. The batches of injected oocytes were incubated for up to 24h: at various times oocytes and their surrounding media were measured for their content of total and acid-insoluble radioactivity and then analyzed on SDS/polyacrylamide gels. Batches of frog cells showing leakage [l 11 were discarded. Radioactive polypeptides resolved on SDS/polyacrylamide gels were revealed by autoradiography o...

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The Influence of Topology and Glycosylation on the Fate of Heterologous Secretory Proteins Made in Xenopus Oocytes

Cited by 84 publications

References 41 publications

Characterisation of a Membrane‐Bound Serine‐Specific Casein Kinase Isolated from Lactating Guinea‐Pig Mammary Gland

Characterisation of a Membrane‐Bound Serine‐Specific Casein Kinase Isolated from Lactating Guinea‐Pig Mammary Gland

In Vitro Synthesis and Processing of Wheat α-Amylase

Signal sequences, secondary modification and the turnover of miscompartmentalized secretory proteins in Xenopus oocytes

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