Nucleus Accumbens 1, a Pox virus and Zinc finger/Bric-a-brac Tramtrack Broad protein binds to TAR DNA-binding protein 43 and has a potential role in Amyotrophic Lateral Sclerosis.

Protein degradation is a critical component of cellular maintenance. The intracellular translocation and targeting of the Ubiquitin Proteasome System (UPS) differentially coordinates a protein's half-life and thereby its function. Nucleus Accumbens 1 (NAC1), a member of the Pox virus and Zinc finger/Bric-a-brac Tramtrack Broad complex (POZ/BTB) family of proteins, participates in the coordinated proteolysis of synaptic proteins by mediating recruitment of the UPS to dendritic spines. Here we report a novel interaction between NAC1 and TAR DNA-binding protein 43 (TDP-43), a protein identified as the primary component of ubiquitinated protein aggregates found in patients with Amyotrophic Lateral Sclerosis (ALS). In vitro translated full-length TDP-43 associated with both the POZ/BTB domain and the non-POZ/BTB domain of NAC1 in GST pulldown assays. Other POZ/BTB proteins (including zinc finger POZ/BTB proteins and atypical POZ/BTB proteins) showed weak interactions with TDP-43. In addition, NAC1 and TDP-43 were present in the same immunocomplexes in different regions of mouse brain and spinal cord. In primary spinal cord cultures, TDP-43 expression was mainly nuclear, whereas NAC1 was both nuclear and cytoplasmic. In order to mimic ALS-like toxicity in the spinal cord culture system, we elevated extracellular glutamate levels resulting in the selective loss of motor neurons. Using this model, it was found that glutamate toxicity elicited a dose-dependent translocation of TDP-43 out of the nucleus of cholinergic neurons and increased the co-localization of NAC1 and TDP-43. These findings suggest that NAC1 may function to link TDP-43 to the proteasome; thereby, facilitating the post-translational modifications of TDP-43 that lead to the development of ALS.

Serum IgM antibody response to the galactose-inhibitable adherence lectin of Entameoba histolytica.

An ELISA for detection of serum IgM antibodies to the galactose-inhibitable adherence lectin of Entamoeba histolytica revealed that 2.8% of uninfected controls, 0.0% of controls infected with other parasites, 13.4% of asymptomatic amebic infections, 55% of colitis patients, and 77% of amebic liver abscess patients from Cairo, Egypt and Durban, South Africa had serum anti-lectin IgM antibodies. Of acute amebic colitis patients with symptoms for less than one week, only 6% possessed serum IgG anti-lectin antibodies, yet 45% had serum IgM antibodies to the amebic lectin. This compares with 65% of sera in acute colitis patients positive for lectin antigen as determined by ELISA with anti-lectin monoclonal antibodies. In conclusion, an ELISA for serum anti-lectin IgM antibodies appears to have greater clinical utility in the setting of acute amebic colitis than an ELISA for anti-lectin IgG antibodies, but is no more sensitive than an ELISA for detection of lectin antigen in sera.

Secretory immunoglobulin A antibodies to the galactose-inhibitable adherence protein in the saliva of patients with amebic liver disease.

Monoclonal antibodies directed against the 260-kD galactose-inhibitable adherence protein (GIAP) of Entamoeba histolytica inhibit binding of amebic trophozoites to purified colonic mucins, suggesting that anti-GIAP secretory immunoglobulin A (sIgA) may have a role in host defense in invasive amebiasis. We determined by enzyme-linked immunosorbent assay (ELISA) whether a salivary anti-GIAP sIgA response was present in patients from the Republic of South Africa with invasive E. histolytica infection. In 13 patients with amebic liver abscess (ALA), salivary anti-GIAP sIgA was significantly higher (mean +/- SD optical density [OD] = 0.448 +/- 0.258) than that determined for seven South African adult patients hospitalized with nonamebic illness (0.084 +/- 0.072; P = 0.002), seven healthy South African Adults (0.194 +/- 0.119: P = 0.025), and seven healthy adults from Charlottesville, Virginia (0.036 +/- 0.023; P = 0.004). Of the patients with ALA, nine had acute disease, and four had been cured of amebiasis 2-8 months previously. There was no significant difference between these two groups in the anti-GIAP sIgA levels. All ALA patients had a high titer serum anti-amebic antibody response, and there was no direct correlation between the level of anti-GIAP salivary IgA and anti-GIAP serum antibodies (R = 0.187). These findings demonstrate that the E. histolytica GIAP is a mucosal antigen in naturally occurring invasive E. histolytica infection.

Identification of peptides from autolysates of Saccharomyces cerevisiae that exhibit glucose tolerance factor activity in a yeast assay.

1. Cationic fractions were isolated from a low chromium (less than 0.2 ppm) commercial yeast extract in an attempt to purify the material responsible for glucose tolerance factor (GTF) activity observed in a standard yeast assay system. 2. Following previously described procedures a fraction with GTF activity but containing negligible chromium was isolated, which on further purification was found to be composed of many separate small basic peptides. 3. Much of the activity of the yeast GTF material in the yeast assay could be attributed to the presence of basic peptides and free amino acids acting as nitrogen sources for the yeast. 4. Additional activity was present in the yeast GTF sample, which was not due to a synergistic effect of the mixed amino acids and peptides although the component of the yeast extract responsible for this activity was not identified. 5. The results show that the GTF fractions isolated according to most previously published procedures are highly impure, and conclusions drawn about the nature of GTF based on these isolates must remain open to question. 6. The activity due to the presence of peptides and amino acids is a major cause of lack of specificity of the yeast systems as an assay for GTF.

Benzo [b]-promazines, chlorpromazine free radical and analino-N, N-dimethylpropylamine analogs influence rat striatal DA-adenylate cyclase and calmodulin-phosphodiesterase.

A series of Benzo [b]-promazines and analino-N, N-dimethylpropylamine analogs and the free radical of chlorpromazine were compared to chlorpromazine and promazine in the rat striatum for their ability to inhibit either dopamine activated adenylate cyclase or calmodulin stimulation of a partially purified high Km cyclic AMP phosphodiesterase. Chlorpromazine and the corresponding free radical were generally the most potent inhibitors of the two enzyme preparations, however, Piperazino-Benzo [b]-promazine, 1-Oxo-Benzo [b]-promazine, N-38-76-3A and Benzo [b]-promazine were relatively effective inhibitors. To a lesser extent, tyrosine, N-57-77, Piperidino-Benzo [b]-promazine, Diethyl-Benzo [b]-promazine, promazine and 1-Oxo-Diethyl-Benzo [b]-promazine exerted varying degrees of antagonism of the two enzymes. In all instances the compounds inhibited dopamine-sensitive adenylate cyclase to a greater extent than the calmodulin activated phosphodiesterase.