Proteomic profiling of the prechylomicron transport vesicle involved in the assembly and secretion of apoB-48-containing chylomicrons in the intestinal enterocytes.

Intracellular assembly of chylomicrons (CM) occurs in intestinal enterocytes through a series of complex vesicular interactions. CM are transported from the ER to the Golgi using a specialized vesicular compartment called the prechylomicron transport vesicle (PCTV). In this study, PCTVs were isolated from the enteric ER of the Syrian Golden hamster, and characterized using 2-DE and MS. Proteomic profiles of PCTV-associated proteins were developed with the intention of identifying proteins involved in the formation, transport, lipidation, and assembly of CM particles. Positively identified proteins included those involved in lipoprotein assembly, namely microsomal triglyceride transfer protein and apolipoprotein B-48, as well as proteins involved in vesicular transport, such as Sar1 and vesicle-associated membrane protein 7. Other groups of proteins found were chaperones, intracellular vesicular trafficking proteins, fatty acid-binding proteins, and lipid-related proteins. These findings have increased our understanding of the transport vesicle involved in the intracellular assembly and transport of CM and can provide insight into potential cellular factors responsible for dysregulation of intestinal CM production.

Elevated immunoglobulin levels in the cerebrospinal fluid from lupus-prone mice.

The systemic autoimmune disease lupus erythematosus (SLE) is frequently accompanied by neuropsychiatric manifestations and brain lesions of unknown etiology. The MRL-lpr mice show behavioral dysfunction concurrent with progression of a lupus-like disease, thus providing a valuable model in understanding the pathogenesis of autoimmunity-induced CNS damage. Profound neurodegeneration in the limbic system of MRL-lpr mice is associated with cytotoxicity of their cerebrospinal fluid (CSF) to mature and immature neurons. We have recently shown that IgG-rich CSF fraction largely accounts for this effect. The present study examines IgG levels in serum and CSF, as well as the permeability of the blood-brain barrier in mice that differ in immune status, age, and brain morphology. In comparison to young MRL-lpr mice and age-matched congenic controls, a significant elevation of IgG and albumin levels were detected in the CSF of aged autoimmune MRL-lpr mice. Two-dimensional gel electrophoresis and MALDI-TOF MS confirmed elevation in IgG heavy and Ig light chain isoforms in the CSF. Increased permeability of the blood-brain barrier correlated with neurodegeneration (as revealed by Fluoro Jade B staining) in periventricular areas. Although the source and specificity of neuropathogenic antibodies remain to be determined, these results support the hypothesis that a breached blood-brain barrier and IgG molecules are involved in the etiology of CNS damage during SLE-like disease.

Proteomic profiling of intestinal prechylomicron transport vesicle (PCTV)-associated proteins in an animal model of insulin resistance (94 char).

Intestinal overproduction of apolipoprotein B (apoB)-48-containing chylomicrons is increasingly recognized as an underlying factor in metabolic dyslipidemia commonly observed in insulin-resistant states. Enhanced chylomicron assembly and secretion has been documented in animal models of insulin resistance, but the underlying mechanistic factors are unknown. Chylomicron assembly occurs through a series of complex vesicular interactions involving prechylomicron transport vesicles (PCTVs), which transport lipids from the endoplasmic reticulum (ER) to the Golgi. We report proteomic profiles of PCTVs isolated from the enteric ER in the small intestine of the fructose-fed hamster, an established model of diet-induced insulin resistance. Using 2D gel electrophoresis and tandem mass spectrometry, PCTVs were characterized and proteomic profiles of PCTV-associated proteins from insulin-resistant and control enterocytes were developed, with the intention of identifying proteins involved in insulin signaling attenuation and lipoprotein overproduction. A number of PCTV-associated proteins were found to be differentially expressed including microsomal triglyceride transfer protein (MTP), apoB-48, Sar1 and VAMP7. We postulate that altered expression of Sar1 and MTP may contribute to increased chylomicron assembly in the fructose-fed hamster. These findings have increased our understanding of the intracellular assembly and transport of nascent chylomicrons and potential cellular factors responsible for lipoprotein overproduction in insulin-resistant states.