Michal L. Ram

Mass spectrometry of cardiac calsequestrin characterizes microheterogeneity unique to heart and indicative of complex intracellular transit

Cardiac calsequestrin concentrates in junctional sarcoplasmic reticulum in heart and skeletal muscle cells by an undefined mechanism. During transit through the secretory pathway, it undergoes an as yet uncharacterized glycosylation and acquires phosphate on CK2-sensitive sites. In this study, we have shown that active calsequestrin phosphorylation occurred in nonmuscle cells as well as muscle cells, reflecting a widespread cellular process. To characterize this post-translational modification and resolve individual molecular mass species, we subjected purified calsequestrin to mass spectrometry using electrospray ionization. Mass spectra showed that calsequestrin glycan structure in nonmuscle cells was that expected for an endoplasmic reticulum-localized glycoprotein and showed that each glycoform existed as four mass peaks representing molecules that also had 0–3 phosphorylation sites occupied. In heart, mass peaks indicated carbohydrate modifications characteristic of transit through Golgi compartments. Phosphorylation did not occur on every glycoform present, suggesting a far more complex movement of calsequestrin molecules in heart cells. Significant amounts of calsequestrin contained glycan with only a single mannose residue, indicative of a novel post-endoplasmic reticulum mannosidase activity. In conclusion, glyco- and phosphoforms of calsequestrin chart a complex cellular transport in heart, with calsequestrin following trafficking pathways not present or not accessible to the same molecules in nonmuscle.

Phosphorylation and dephosphorylation of calsequestrin on CK2-sensitive sites in heart

Calsequestrin (CSQ) concentrates in junctional sarcoplasmic reticulum (SR) where it functions in regulation of Ca2+ release. When purified from heart tissue, cardiac CSQ contains phosphate on a cluster of C-terminal serine residues, but little is known about the cellular site of kinase action, and the identity of the kinase remains uncertain. To determine basic features of the phosphorylation, we examined the reaction in canine heart preparations. CSQ phosphorylation was observed in [32P]metabolically-labeled heart cells after adenoviral overexpression, and its constitutive phosphorylation was limited to a CK2-sensitive C-terminal serine cluster. The CSQ kinase was oriented intralumenally, as was CSQ, inside membrane vesicles, such that exposure to each required detergent permeabilization. Yet even after detergent permeabilization, CSQ was phosphorylated much less efficiently by protein kinase CK2 in cardiac microsomes than was purified CSQ. Reduced phosphorylation was strongly dependent upon protein concentration, and phosphorylation time courses revealed a phosphatase activity that occurred constitutively as phosphorylated substrate accumulates. Evidence of selective dephosphorylation of CSQ glycoforms in heart homogenates was also seen by mass spectrometry analysis. Molecules with greater mannose content, a feature of early secretory pathway compartments, were more highly phosphorylated, while greater dephosphorylation was apparent in more distal compartments. Taken together, the analyses of CSQ phosphorylation in heart suggest that a constitutive process of phosphate turnover occurs for cardiac CSQ perhaps associated with its intracellular transport (Mol Cell Biochem 266: 209–217, 2004)

Reproduction-Associated Immunoreactive Peptides in the Nervous Systems of Prosobranch Gastropods

Antibodies against reproductive peptides of Aplysia and Lymnaea were used to localize homologous immunoreactive peptides in the nervous systems of three prosobranch species: Busycon canaliculatum, Concholepas concholepas, and Tegula atra. Positive control experiments in L. stagnalis demonstrated the broad species range of the anti-egg-laying hormone (anti-ELH) antibody used in this study, and showed binding of anti-alpha-caudodorsal-cell peptide (anti-alpha-CDCP) to the same cells in cerebral and buccal ganglia. Dot immunoassays with synthetic ELH confirmed the reactivity and sensitivity (< 0.1 microgram) of the anti-ELH antibody. Experiments with preadsorbed antibody or no primary antibody confirmed its specificity. In B. canaliculatum, clusters of more than 300 neuronal cell bodies immunoreactive to both anti-ELH and anti-alpha-CDCP were observed along the medial margins of left and right cerebral ganglia. Anti-alpha-CDCP reacted with additional small populations of cerebral ganglion neurons not stained by anti-ELH. Anti-ELH and anti-alpha-CDCP also reacted with overlapping but different small populations of neurons in buccal ganglia. In C. concholepas and T atra, ELH-like immunoreactivity was found in cerebral ganglia, and in T. atra in fibers in the cerebral ganglia and cerebral-pedal connectives. Thus, cerebral ganglia are the major locus of the ELH-like immunoreactivity in prosobranchs.

HORMONAL CONTROL OF REPRODUCTION IN BUSYCON: II. LAYING OF EGG-CONTAINING CAPSULES CAUSED BY NERVOUS SYSTEM EXTRACTS AND FURTHER CHARACTERIZATION OF THE SUBSTANCE CAUSING EGG CAPSULE LAYING

Ram (1977) previously observed that Busycon would lay empty egg capsules when injected with nervous system extracts and suggested that egg capsules con taming eggs would be laid only after a number of eggless capsules had first been laid. Data supporting this suggestion and characterizing the gel filtration behavior and species specificity of the substance causing capsule laying are reported. Busycon capsule strings collected in the field always had empty egg capsules at the initially laid end (B. carica, 13—17; B. cana!icu!atum, 4—57). B. carica, collected while laying in the field, continued to lay capsules in the laboratory at the average interval of 1.9 ±1.5 hours/capsule. Injection of nervous system extracts into B. canaliculatum caused capsule lay ing. The least amount that would cause capsule laying was ‘?�/16 of a nervous system. Injection of ¼ nervous system every two or three hours resulted in the laying of egg-containing capsules after a series of four or more empty capsules. The number of initial empty capsules was correlated with the percent of injections causing capsule laying. The percentage of hard capsules increased from 36 ±24% before eggs were inserted to 59 ± 27% after eggs were inserted (P < 0.05). The substance causing capsule laying in Busycon eluted from Sephadex G-50 at the same position as Ap!ysia egg laying hormone; however, cross-injection cx periments between the two species failed to cause egg or capsule laying. Nervous system extracts from Strombus gigas caused capsule laying in Busycon; whereas, Busycon nervous system extracts did not cause laying in Strombus.

Application of ion torrent sequencing to the assessment of the effect of alkali ballast water treatment on microbial community diversity.

The impact of NaOH as a ballast water treatment (BWT) on microbial community diversity was assessed using the 16S rRNA gene based Ion Torrent sequencing with its new 400 base chemistry. Ballast water samples from a Great Lakes ship were collected from the intake and discharge of both control and NaOH (pH 12) treated tanks and were analyzed in duplicates. One set of duplicates was treated with the membrane-impermeable DNA cross-linking reagent propidium mono-azide (PMA) prior to PCR amplification to differentiate between live and dead microorganisms. Ion Torrent sequencing generated nearly 580,000 reads for 31 bar-coded samples and revealed alterations of the microbial community structure in ballast water that had been treated with NaOH. Rarefaction analysis of the Ion Torrent sequencing data showed that BWT using NaOH significantly decreased microbial community diversity relative to control discharge (p<0.001). UniFrac distance based principal coordinate analysis (PCoA) plots and UPGMA tree analysis revealed that NaOH-treated ballast water microbial communities differed from both intake communities and control discharge communities. After NaOH treatment, bacteria from the genus Alishewanella became dominant in the NaOH-treated samples, accounting for <0.5% of the total reads in intake samples but more than 50% of the reads in the treated discharge samples. The only apparent difference in microbial community structure between PMA-processed and non-PMA samples occurred in intake water samples, which exhibited a significantly higher amount of PMA-sensitive cyanobacteria/chloroplast 16S rRNA than their corresponding non-PMA total DNA samples. The community assembly obtained using Ion Torrent sequencing was comparable to that obtained from a subset of samples that were also subjected to 454 pyrosequencing. This study showed the efficacy of alkali ballast water treatment in reducing ballast water microbial diversity and demonstrated the application of new Ion Torrent sequencing techniques to microbial community studies.

Identification of a cytoskeleton-bound form of phospholemman with unique C-terminal immunoreactivity.

Phospholemman (PLM) is a 72-amino acid transmembrane protein thought to function in Na,K-ATPase regulation or assembly, similar to other members of the FXYD family of proteins. Unique to PLM among these regulatory proteins are sites for C-terminal phosphorylation by PKA and PKC, although a role for phosphorylation in PLM function remains unclear. To study PLM phosphorylation, we used PLM phosphopeptides to generate antibodies to specifically detect phosphorylated PLM. Peptide affinity chromatography isolated two populations of antibodies: one reacting with standard PLM, a collection of closely-spaced 15-kDa protein bands by SDS-PAGE. About 20% of PLM antibodies reacted specifically with a single distinct form of PLM. Levels of this second immunological form (PLM-b) were increased with overexpression of PLM cDNA, and also reacted with a monoclonal antibody against the PLM N-terminus. In complete contrast to standard PLM, however, PLM-b was quantitatively insoluble in nonionic detergents and was released from tight binding by colchicine. Antibodies to PLM-b were present in two different antisera raised to the phosphorylated C-terminal peptide (residues 57–70), but not in antiserum raised to the non-phosphorylated C-terminal peptide. Despite an apparent relationship between PLM-b and phosphorylated PLM, PLM-b levels were not affected by treatment of heart cells with isoproterenol. PLM-b appears to represent a cytoskeleton-attached detergent-insoluble form of PLM with distinctive C-terminal immunoreactivity that might have implications for PLM structure and function.

Cholinergic and Peptidergic Regulation of Siphon/Mantle Function in the Zebra Mussel, Dreissena polymorpha

Neurotransmitter regulation of the siphon and adjacent mantle region of bivalves has not previously been examined. In the biofouling bivalve, Dreissena polymorpha, acetylcholine and FMRFamide both elicited contractions of siphon/mantle preparations. Hexamethonium bromide inhibited acetylcholine-elicited contractions but had no effect on FMRFamide-elicited contractions. FMRFamide-like immunoreactivity and chromatographic evidence for acetylcholine were found in central ganglia and the siphon/mantle region. Extracts of siphons, gonads, and gills, separated on Sephadex G-25, also contained macromolecules larger than acetylcholine and FMRFamide that caused siphon/mantle contraction. These results demonstrate regulation of contraction by several potential neurotransmitter agents in a new bivalve preparation, the siphon/mantle.

Synthetic egg-laying hormone of Aplysia: quantitative studies of induction of egg laying in Stylocheilus and of the activation of Aplysia buccal neuron B16

1. Synthetic Aplysia egg-laying hormone (ELH-lysine-amide) elicited egg laying in Stylocheilus at a threshold dose of 0.5 microgram per recipient, estimated to be a concentration in the circulation of Stylocheilus of approximately 70 nM. 2. Threshold level and size of egg mass produced by ELH-lysine-amide and bag cell extracts (containing biological ELH) were not significantly different. Latency to lay of recipients of 0.5-4.0 micrograms ELH-lysine-amide (30 +/- 1 min) was significantly longer (P less than 0.05) than for bag cell extract recipients (21 +/- 1 min). 3. ELH-lysine-amide depolarized and activated action potentials in Aplysia buccal neuron B16 in high magnesium, low calcium medium. 4. The lowest concentration of ELH-lysine-amide to activate a supra-threshold response of left and right B16 neurons ranged from 250 nM to 1 microM. 5. Threshold levels for responses to synthetic ELH-lysine-amide and to biological ELH were approximately the same in both egg-laying assay and electrophysiological assay, indicating the likely identity of synthetic and biological ELH. However, the shorter egg-laying latency with bag cell extract suggests that there may be additional factors in the extract that facilitate egg laying.