Immunohistochemical localization of WE-14 in the developing porcine sympathoadrenal cell lineage.

Immunohistochemical investigation of the post-translational processing of chromogranin A (CgA) to generate WE-14 in the sympathoadrenal cell lineage of the developing porcine fetus (F) detected intense CgA and weak WE-14 immunoreactivity in migrating neuroblast cells of the diffuse sympathetic ganglia adjacent to the dorsal aorta and projecting toward the cortical mass at F24-27. F37-42; WE-14 immunoreactivity was detected in chromaffinoblasts at the periphery of the developing cortex and at F54-56 days gestation WE-14 immunoreactivity was detected in a large population of central medullary cells. From F74 to F76 days and thereafter the number of cells exhibiting intense WE-14 immunostaining decreased, and the majority of chromaffin cells exhibited uniform weak WE-14 immunostaining. At postnatal day 1 (P1) intense WE-14 immunoreactivity was primarily confined to clusters of chromaffin cells with weak immunostaining in the general population. The transitory neuroblasts, chromaffinoblasts, and maturing chromaffin cell population exhibited uniform intense CgA immunostaining through gestation and after birth. Additional observations detected intense CgA and WE-14 immunostaining in extrachromaffin tissue at P1 and in neuronal-like cells in vessels of the aortic arch at F37. This study has demonstrated that CgA is post-translationally processed to generate WE-14 during early fetal development in the migrating progenitor cells of the porcine sympathoadrenal lineage.

Identification and characterization of novel chromogranin B-derived peptides from porcine chromaffin granules by liquid chromatography/electrospray tandem MS.

Chromogranin B (CgB) is a regulated secretory protein that is stored in endocrine and neuroendocrine cells. It can be processed proteolytically to small peptide fragments. In the present study three proteolytic products of porcine CgB were obtained after size-exclusion, immunoaffinity, and reversed-phase chromatography, and then identified by electrospray tandem MS. One novel peptide was identified as S586-R602 (SR-17) and is phosphorylated at one or two serine residues. Another novel peptide H603-Q636 (HQ-34), with molecular mass 3815.56 Da, was found to be oxidized at the methionine residue. In addition, a secretolytin-like peptide fragment (KR-11), which is two amino acids shorter than the bovine secretolytin, was found. This is the first report that the C-terminal region of CgB, the homologue of human CCB, is proteolytically processed further into three small peptide fragments.

The processing of secretogranin II in the peripheral nervous system: release of secretoneurin from porcine sympathetic nerve terminals.

The distribution of secretoneurin (SN), a peptide derived from secretogranin II (SgII), in the coeliac ganglion, the splenic nerve and the spleen was examined by immunohistochemistry. In the ganglion, SN immunoreactivity (IR) was unevenly distributed. Positive nerve terminals densely surrounded some postganglionic perikarya in which also intense SN-IR was present. In the crushed splenic nerves, intense immunoreactivities appeared proximal (but to a less extent also distal) to the crush of the nerve. Analysis by cytofluorimetric scanning (CFS) demonstrated that SN-IR and neuropeptide Y immunoreactivity (NPY-IR) were predominant in the axons proximal to the crush representing anterogradely transported components. Using radioimmunoassay (RIA) we demonstrated that upon electrical stimulation (10 Hz, 1 min) of the splenic nerve, significant amounts of SN-IR (64.2+/-2.3 fmol) were released together with NA (4. 1x106+/-0.2 fmol) and NPY (330.0+/-7.2 fmol) from the isolated perfused porcine spleen. To evaluate the processing of SgII in sympathetic neurons, boiled tissue extracts (coeliac ganglia and splenic nerve) and boiled spleen perfusate (used as a suitable source for vesicle derived peptides) were analysed by gel filtration chromatography followed by SN-RIA. In all cases immunoreactivity was present solely as SN, indicating that SgII was fully processed to the free peptide. The evidence that SN is transported to the nerve terminals and is released from the porcine spleen upon nerve stimulation, suggests that it may modulate adrenergic neurotransmission and may also play a role in the neuroimmune communication.