Peptide and protein identification by matrix-assisted laser desorption ionization (MALDI) and MALDI-post-source decay time-of-flight mass spectrometry

The potential of matrix-assisted laser desorption ionization (MALDI) and MALDI-post-source decay (PSD) time-of-flight mass spectrometry for the characterization of peptides and proteins is discussed. Recent instrumental developments provide for levels of sensitivity and accuracy that make these techniques major analytical tools for proteome analysis. New software developments employing protein database searches have greatly enhanced the fields of application of MALDI-PSD. Peptides and proteins can be easily identified even if only a partial sequence information is determined. Derivatization procedures have been optimized for MALDI-PSD to increase the structural information and to obtain a complete peptide sequence even in critical cases. They are fast, simple and can be performed on target. MALDI-PSD is also a very powerful tool to characterize or elucidate post-translational or chemically induced modifications. In association with database searches, proteins issued from electrophoretic gels can be identified after specific enzymatic cleavages and peptide mapping.     

Innervation and control of the adenohypophysis by hypothalamic peptidergic neurons in teleost fishes: EM immunohistochemical evidence

Previous light microscopic studies have revealed neuropeptide-immunoreactive neurosecretory fibers in the teleostean neurohypophysis, and ultrastructural work has reported direct innervation of endocrine cells by the terminals of fibers penetrating the adenohypophysis. This paper reviews our recent data from ultrastructural, immunohistochemical, receptor localization, and superfusion studies, which suggest a role for neuropeptides in the control of teleost pituitary secretion. We have used a combination of pre- and post-embedding electron microscopic immunolabeling methods to determine which neuropeptides are present in fibers innervating the pituitaries of three species: Poecilia latipinna, Dicentrarchus labrax, and Clarias gariepinus. Numerous axon profiles with immunoreactivity for the neurosecretory peptides vasotocin and isotocin formed large Herring bodies and terminal-like boutons in contact with corticotropic, growth hormone, thyrotropic, and pars intermedia cells. Numerous melanin-concentrating hormone-immunoreactive fibers and scarcer neurotensin and corticotropin-releasing factor-immunoreactive fibers showed similar distributions, terminating close to pars intermedia and corticotropic cells. Somatostatin, cholecystokinin, galanin, substance P, neuropeptide Y, growth hormone-releasing factor, thyrotropin-releasing hormone, and gonadotropin-releasing hormone-immunoreactivities were found in small calibre fibers penetrating among growth hormone, thyrotropic, and gonadotropic cells. These morphological findings have been supplemented by autoradiographic studies, which showed the distribution of binding sites for vasotocin, isotocin, galanin, and neuropeptide Y ligands over specific groups of pituitary cells, and superfusion studies that showed growth hormone release was stimulated by growth hormone-releasing factor and thyrotropin-releasing hormone, but inhibited by somatostatin. The implications of these results for neuropeptidergic control of teleostean pituitary secretions are discussed.     

Influence of stereoisomeric glucose, galactose and mannose residues on fragmentation at their glycosidic linkages in post-source decay fragment analyses for oligosaccharides using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry

The isomeric sugar branched beta-cyclodextrin (CD) derivatives (Glc-beta CD, Gal-beta CD, and Man-beta CD) were analyzed by matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry. In the MALDI post-source decay (PSD) fragmentation of Glc-beta CD, Gal-beta CD and Man-beta CD, the fragment ions of [M-Glc]+, [M-Gal]+ and [M-Man]+ were produced by the one-site cleavage of the alpha 1-6 glycosidic linkage at the branch (Y-type fragmentation). The abundances of [M-Gal]+ ions were much higher than that of [M-Man]+. These results indicated that Glc-beta CD and Gal-beta CD were distinguishable from Man-beta CD and that Y-type fragmentations of the branched glycosidic linkage at the glycosyl donors of alpha-D-Glc and alpha-D-Gal were more predominant than that at the glycosyl donor of alpha-D-Man by MALDI-PSD fragment analysis. It was concluded that the abundances of PSD fragment ions depended on the stereochemistry of the glycosyl donors in the cleavage of the glycosidic linkage of the oligosaccharides in MALDI-TOF mass spectra.     

Negative ion postsource decay time-of-flight mass spectrometry of peptides containing acidic amino acid residues

Acidic peptides have been studied by negative ion postsource decay (PSD) matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry. The peptides contained from 5 to 16 residues and were chosen on the basis of their patterns of the acidic residues. Using typical MALDI sample preparation techniques employing an acidic matrix, gastrin I (1-14), and epidermal mitosis inhibiting pentapeptide yielded much larger deprotonated ion signals, [M - H]-, than protonated ions, [M + H]+. This may be due to their absence of basic residues, coupled with their arrays of acidic residues. The PSD fragmentation of the peptide negative ions showed that an array of acidic residues, as in gastrin I (1-14), yielded simple spectra containing mainly backbone cleavage ions from the C-terminus. Hirudin (54-65), which contains two sets of two consecutive Glu residues, and fibrinopeptide A and fibrinopeptide B, with isolated acidic residues, also showed backbone cleavages as common fragment ions. In addition, the two sets of isolated consecutive amino acid residues in Cys(Bzl)84-CD4 (81-92) and hirudin (54-56) yielded internal ions from the cleavages at the (O=C)-NH bond between the acidic residues. Also observed were ions with unique side chain losses, such as the loss of C6H4O from a tyrosine residue and SCH2C6H5 and CH2C6H5 from a benzylated cysteine residue. Compared to the positive mode, the negative-ion PSD yielded fewer fragments which usually involved only one type of backbone cleavage (e.g., [Yn - H2O]-). These simple spectra aided interpretation. Overall, the acidic peptides studied yielded negative ion PSD spectra that were useful for peptide sequencing.     

Experimental treatment of brain tumor cells using CD suicide gene

Pro-opiomelanocortin (POMC) is a polyhormone precursor produced predominantly in the pars distalis and pars intermedia of the pituitary gland where it undergoes tissue specific processing to produce a whole array of peptides. We have shown previously that peptides derived from the N-terminal region of POMC are involved in adrenal growth in rats. Using specific two site immunoradiometric assays we have found that the plasma of 17 week old fetal sheep contain a 50 fold excess of pro-gamma-MSH over ACTH. As term approached, the levels of pro-gamma-MSH fell and ACTH rose with evidence of fragmentation of pro-gamma-MSH, suggesting that these peptides act in concert in the development of the fetal adrenal cortex and also provide the necessary drive to bring about parturition. In an attempt to explore the pathophysiology of adrenal function we have cloned human POMC cDNA which led to the discovery of a 9bp addition/deletion mutation in the C-terminus of gamma 3-MSH between positions 67-73. Chinese hamster ovary cells (CHO) cells stably transfected with constructs containing the variant POMC cDNAs have shown a degree of partial processing. Work is currently underway to further investigate the effects of these mutations on the processing by the prohormone converting enzymes PC1 and PC2.     

Structural analysis of xyloglucan oligosaccharides by the post-source decay fragmentation method of MALDI-TOF mass spectrometry: influence of the degree of substitution by branched galactose, xylose, and fucose on the fragment ion intensities

Highly branched xyloglucan oligosaccharides were analyzed by the post-source decay (PSD) fragmentation method of matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOFMS). The ratio of [M-Xyl]+ and [M-Gal]+ fragment ion intensities could be used to characterize the degree of Gal substitution at the non-reducing end, because the number of possible chemical species was directly related to their relative ion intensity. The intensity of the [M-Fuc]+ ion was predominantly strong in the fragment spectrum of fucosyl oligosaccharides as the first fragmentation, indicating the fucosyl linkage to be much weaker than the other glycosidic linkages in the MALDI-PSD fragmentation. Setting fragment ion [M-Fuc]+ to the pseudo precursor ion [MF]+, the second fragmentation ions were produced from [MF]+ in the drift region in PSD fragmentation of fucosyl oligosaccharides.     

Aspects of oligonucleotide and peptide sequencing with MALDI and electrospray mass spectrometry

Biopolymer sequencing with mass spectrometry has become increasingly important and accessible with the development of matrix-assisted laser desorption/ionization (MALDI) and electrospray ionization (ESI). Here we examine the use of sequential digestion for the rapid identification of proteolytic fragments, in turn highlighting the general utility of enzymatic MALDI ladder sequencing and ESI tandem mass spectrometry. Analyses were performed on oligonucleotides ranging in size from 2 to 50 residues, on peptides ranging in size from 7 to 44 residues and on viral coat proteins. MALDI ladder sequencing using exonuclease digestion generated a uniform distribution of ions and provided complete sequence information on the oligonucleotides 2-30 nucleic acid residues long. Only partial sequence information was obtained on the longer oligonucleotides. C-terminal peptide ladder sequencing typically provided information from 4 to 7 amino acids into the peptide. Sequential digestion, or endoprotease followed by exoprotease exposure, was also successfully applied to a trypsin digest of viral proteins. Analysis of ladder sequenced peptides by LCMS generated less information than in the MALDI-MS analysis and ESI-MS2 normally provided partial sequence information on both the small oligonucleotides and peptides. In general, MALDI ladder sequencing offered information on a broader mass range of biopolymers than ESI-MS2 and was relatively straightforward to interpret, especially for oligonucleotides.     

Improving mass spectrometric sequencing of arginine-containing peptides by derivatization with acetylacetone

Modification of arginine residues in bradykinin, [1-5]-bradykinin, splenopentin and two synthetic pentapeptides with acetylacetone (pentane-2,4-dione) significantly increases the relative abundance of sequence-specific fragment ions produced by matrix-assisted laser desorption/ionization (MALDI). The fragmentation efficiency as measured by post-source decay in a reflectron time-of-flight mass spectrometer increases by a factor of 2-3.5. Peptide bonds adjacent to modified residues are more susceptible to cleavage than in the non-derivatized peptide ions. The increased lability of these bonds gives rise to more complete sequence information. In addition, the relative abundances of sequence-specific fragment ions are enhanced. This strategy makes it possible to obtain valuable structural information from arginine-containing peptides that otherwise do not fragment well.     

Dietary protein level and experimental aortic atherosclerosis

During short-term incubations of isolated posterior pituitary glands of the mouse, isotopically labelled amino acids were incorporated into protein by the cells of the pars intermedia. Using labelled leucine, 5-10% of incorporated label was found in a protein (P1) with a molecular weight of about 75 000. Protein P1 could be isoalted from both fresh and incubated tissue, and was a normal and indeed major, secretory product of the ppars intermedia. constituting more than 50% of the protein present.     

Structural characterization of argingipain, a novel arginine-specific cysteine proteinase as a major periodontal pathogenic factor from Porphyromonas gingivalis

Argingipain, so termed due to its peptide cleavage specificity at arginine residue, is a unique extracellular cysteine proteinase produced by the anaerobic rod Porphyromonas gingivalis, which is known as a major pathogenic factor of the progressive periodontal disease (T. Kadowaki, M. Yoneda, K. Okamoto, K. Maeda, and K. Yamamoto (1994) J. Biol. Chem. 269, 21371-21378). The catalytic specificity and functional importance of this enzyme prompted us to elucidate its structural features. A DNA fragment for argingipain was selectively amplified by polymerase chain reaction using mixed oligonucleotide primers designed from the NH2-terminal amino acid sequence of the purified enzyme. Although the extracellular mature enzyme was shown to have an apparent molecular mass of 44 kDa in gels, the nucleotide sequence of the isolated gene revealed a single gene coding for a 109-kDa precursor of argingipain. The deduced amino acid sequence exhibited no significant similarity to the sequences of representative members of the cysteine protease family. The precursor contained four functional domains: the NH2-terminal signal peptide required for the inner membrane transport; the NH2-terminal prosequence, which is assumed to stabilize the precursor structure; the proteinase domain; and the COOH-terminal hemagglutinin domain, which appears to be essential for extracellular secretion of the proteinase domain. Experiments involving the addition of the argingipain inhibitors to the culture medium of P. gingivalis suggested that the maturation of argingipain occurs intracellularly via an autocatalytic cleavage of the pro-argingipain propeptide.     

Characterization of pathotype-specific epitopes of newcastle disease virus fusion glycoproteins by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry and post-source decay sequencing

Matrix-assisted laser desorption/ionization (MALDI) time-of-flight (TOF) mass spectrometry (MS) was used to characterize the F2 polypeptide of the fusion (F) protein of an avirulent isolate (VRI 82-6409) of Newcastle disease virus (NDV) that was previously identified by immunochemical screening as having a variant cleavage activation sequence in its fusion protein precursor (F0). The major glycoform of the intact F2 polypeptide of the VRI 82-6409 isolate was 89 Da smaller than the F2 polypeptide of the avirulent V4 isolate of the Queensland strain of NDV. Analysis of AspN protease digests of the F2 polypeptides by MALDI/TOF-MS, with and without high-performance liquid chromatographic (HPLC) separation, showed this mass difference to be due to a combination of differences in the extents of glycosylation and an amino acid difference in the AspN peptides derived from the C-termini of the F2 polypeptides. Accuracies achieved in analysis of the AspN peptides allowed the identification of this amino acid difference as glutamic acid in the VRI 82-6409 isolate compared with glycine in the V4 isolate. Analysis of fragments formed by post-source decay (PSD) of ions of the C-terminal AspN peptides localized the difference to the C-terminal residues of the respective F2 polypeptides. The present study demonstrated that MALDI/TOF-MS is a highly effective technique for the characterization of NDV variants identified by immunochemical screening of pathotype-specific epitopes at the C-termini of their F2 polypeptides.     

Differentiation of lysine/glutamine in peptide sequence analysis by electrospray ionization sequential mass spectrometry coupled with a quadrupole ion trap

Electrospray ionization coupled to a quadrupole ion trap mass spectrometer is used to differentiate between the isobaric amino acids lysine and glutamine in sequence analysis of peptides. Collision-induced dissociation is used for fragmentation. Several isobaric peptides with one or more lysines or glutamines at different positions were investigated. The ambiguous amino acid either in the peptide chain or at the C- or N-terminus can be clearly identified based on specific side chain fragment ions resulting from MS3 or MS4 of B- and Y"-fragment ions.     

Small, anionic, and charge-neutralizing propeptide fragments of zymogens are antimicrobial

Some inactive precursor proteins, or zymogens, contain small, amino terminus, homopolymeric regions of Asp that neutralize the cationic charge of the active protein during synthesis. After posttranslational cleavage, the anionic propeptide fragment may exhibit antimicrobial activity. To demonstrate this, ovine trypsinogen activation peptide, and frog (Xenopus laevis) PYL activation peptide, both containing homopolymeric regions of Asp, were synthesized and tested against previously described surfactant-associated anionic peptide. Peptides inhibited the growth of both gram-negative (MIC, 0.08 to 3.00 mM) and gram-positive (MIC, 0.94 to 2.67 mM) bacteria. Small, anionic, and charge-neutralizing propeptide fragments of zymogens form a new class of host-derived antimicrobial peptides important in innate defense.     

Capillary electrophoresis combined with matrix-assisted laser desorption/ionization mass spectrometry; continuous sample deposition on a matrix-precoated membrane target

Capillary electrophoresis (CE) and matrix-assisted laser desorption/ionization mass spectrometry (MALDI/MS) were combined in an off-line arrangement to provide separation and mass analysis of peptide and protein mixtures in the attomole range. A membrane target, precoated with MALDI matrix, was used for the continuous deposition of effluent exiting from a CE device. A sample track was produced by linear movement of the target during the electrophoretic separation and this track was subsequently analyzed by MALDI/MS. The technique is effective for peptides and proteins, having limits of detection (signal-to-noise >3) of about 50 amol for neurotensin (1673 Da) and 250 amol for cytochrome c (12361 Da) and apomyoglobin (16951 Da). The electrophoretic separation achieved from the membrane target, as measured by theoretical plate numbers from the mass spectrometric data, can be as high as 80-90% of that achieved by on-line UV detection under optimal conditions, although band broadening occurs and with some loss of separation efficiency. Non-volatile buffers such as 10-50 mM phosphate can also be used in the electrophoresis process and directly deposited on the membrane. The use of post-source decay techniques is shown for peptides in the CE sample track in order to obtain sequence verification. The effectiveness of this method of integration of CE and MALDI/MS is demonstrated with both peptide and protein mixtures and with the analysis of a tryptic digest of a protein.     

Purification of calcitonin-like peptides from rat brain and pituitary

Accumulating evidence supports the existence of nonthyroidal calcitonin (CT)-like peptides, more similar to fish CTs, which may act as endogenous regulators of CT receptors in brain and other tissues. In this study, we have carried out large-scale extractions from Sprague-Dawley rat brain diencephalon and pituitary, and purified a novel, biologically active, CT-like peptide from pituitary. Monitoring of the calcitonin-like activity of the peptides from rat brain and pituitary required different detection systems. While the brain CT cross-reacted with C-terminally directed salmon CT-specific antisera, the pituitary CT did not. However, the pituitary CT was biologically active, exhibiting specific interaction with CT receptors to activate adenylate cyclase. Conventional chromatographic techniques were employed to purify the CT-like peptides. Although the brain CT was not purified to homogeneity, size exclusion chromatography revealed the presence of multiple molecular weight forms of immunoreactive CT. Of these, only the lowest molecular weight form was biologically active. Purification from the pituitary resulted in the isolation of a biologically active peptide with a mass of 3267 Da. This mass differs from the mass of both salmon and thyroid-derived rat CT. Initial amino acid sequencing of the pituitary CT indicated that it was N-terminally blocked. Following aminopeptidase digestion, a unique six amino acid sequence, EKSQSP, was identified. Elucidation of the amino acid composition provided supporting evidence that the peptide was novel and was consistent with a full length peptide of approximately 30 amino acids. These data support the existence of novel, nonthyroidal, CTs which are potential regulators of CT receptor-mediated functions.     

Unknown peptide sequencing using matrix-assisted laser desorption/ionization and in-source decay

The results of a study to determine the utility of in-source decay fragmentation of matrix-assisted laser-desorbed ions for obtaining useful sequence information on unknown peptides are presented. Six peptides were purified by high-performance liquid chromatography and submitted as single blind unknowns. The in-source decay fragment ion data were collected on a linear time-of-flight mass spectrometer equipped with delayed extraction. These fragment ion data were manually interpreted on the basis of known fragmentation pathways to determine a proposed sequence. The proposed sequences for three of the unknowns were essentially correct, with a few minor errors. A fourth unknown had significant errors associated with its proposed sequence due to misinterpretation of the fragmentation data. Two unknowns were found to have undergone significant sample degradation prior to analysis, which compromised the results for these samples. An example of the use of protein database searching of a partial peptide sequence to aid in a sequence determination is also presented.     

Mass spectroscopic analysis of a novel enzymatic reaction. Oxidative decarboxylation of the lantibiotic precursor peptide EpiA catalyzed by the flavoprotein EpiD

The epidermin biosynthetic reaction between the flavoprotein EpiD and the precursor peptide EpiA was investigated by reversed-phase chromatography and ion spray mass spectrometry. Several products with molecular masses 46 and 104 Da less than that of EpiA were observed; these results were confirmed by using an MBP-EpiD fusion protein as enzyme and the mutant peptides EpiAR-1Q and K-EpiA as substrates. The reaction was inhibited by Zn2+ ions. Modifications were localized in the C-terminal fragment of EpiA as shown by factor Xa cleavage of the products followed by mass spectrometry analysis. In addition, EpiD reacted with the precursor peptides and with proepidermin, indicating that the leader peptide is not necessary for the recognition of EpiA by EpiD. Sequence analysis of modified proepidermin revealed that at least the amino acids Ile(+1)-Tyr+20 are unmodified. The observed decrease in mass of 46 Da and the modification at the C terminus of EpiA is in agreement with the proposed enzymatic function of EpiD, the oxidative decarboxylation of the precursor peptide. In addition, the increased absorbance at 260 nm of the modified peptides indicates the presence of a thioenol group in the C-terminal proepidermin.     

Tumors of the central nervous system

Neoplasia of the central nervous system (CNS) can be divided into two main categories: nonpituitary CNS neoplasia and pituitary adenomas. Nonpituitary CNS neoplasias are generally compressive in nature, although some are also invasive. The majority of reported CNS tumors are secondary with only a few originating from nervous tissue. Pituitary adenomas predominantly occur in the pars intermedia of the older horse. Clinical signs, diagnostic testing, and possible treatments are discussed.     

Multiple sequential fraction collection of peptides and glycopeptides by high-performance capillary electrophoresis

Multiple sequential fraction collection of peptides and glycopeptides by high-performance capillary electrophoresis (HPCE) under applied voltage has been demonstrated from complex tryptic peptide maps. The collection methodology was adapted from a high-resolution glycopeptide mapping procedure and, as such, requires active temperature control of the sample, electrophoresis vials, and collections vials because the electrophoresis buffer system is higher conductive. Resolution was compromised in the preparative HPCE separation due to heavy sample loading and to reduced voltage. The latter was a requirement for this buffer system in order to control Joule heating at the current levels employed; collections were routinely performed at approximately 1.5 W/m. The collection buffer was optimized by the addition of 12% methanol (v/v), thereby improving collection yields. Tryptic non-glycopeptides were group collected; secondary analysis of the HPCE collections agreed with analytical separations with respect to the number of peptides contained in a given fraction. Sequentially collected peptide fractions were analyzed by Edman sequencing and MALDI mass spectrometry to verify peptide identity and sequence. Consistent peptide sequence or mass measurements were obtained for repeat collections. The isolation of the single pure glycopeptide indicates that unique glycopeptide structures can be collected by HPCE and then analyzed by other methods.     

Cloning and sequencing of the gene encoding a novel lysine-specific cysteine proteinase (Lys-gingipain) in Porphyromonas gingivalis: structural relationship with the arginine-specific cysteine proteinase (Arg-gingipain)

Lys-gingipain (KGP), so termed due to its peptide cleavage specificity for lysine residues, is a cysteine proteinase produced by the Gram-negative anaerobic bacterium Porphyromonas gingivalis. Mixed oligonucleotide primers designed from the NH2-terminal sequence of the purified enzyme were used to clone the KGP-encoding gene (kgp) from the organism. The nucleotide sequence of kgp had a 5,169-bp open reading frame encoding 1,723 amino acids with a calculated molecular mass of 218 kDa. As the extracellular mature enzyme had an apparent molecular mass of 51 kDa in gels, the precursor of KGP was found to comprise at least four domains, the signal peptide, the NH2-terminal prodomain, the mature proteinase domain, and the COOH-terminal hemagglutinin domain, and to be proteolytically processed during its transport. Importantly, the COOH-terminal region contained three direct repeats of two different amino acid sequences, LKWD(or E)AP and YTYTVYRDGTKI, and the subdomains located between the two repeats exhibited strong similarity to those of Arg-gingipain (RGP), another major cysteine proteinase produced by the organism and having cleavage specificity for arginine residues, although the arrangement of the subdomains was not necessarily identical in the two enzymes. Since the KGP activity was greatly decreased in RGP-deficient mutants and since the most probable site of the propeptide cleavage was present in the homologous sequence highly susceptible to proteolysis by RGP, the precursor of KGP is likely to be processed by RGP to form the mature enzyme.