Desmin mutation responsible for idiopathic dilated cardiomyopathy.

BACKGROUND: Idiopathic dilated cardiomyopathy, of which approximately 20% of cases are familial (FDCM), is a primary myocardial disorder characterized by ventricular dilatation and impaired systolic function. It is a common cause of heart failure and the need for cardiac transplantation. Although 6 chromosomal loci responsible for autosomal dominant FDCM have been mapped by linkage analysis, none of these genes have been identified. By use of the candidate-gene approach, actin was identified recently as being responsible for dilated cardiomyopathy. Considerable evidence suggests desmin, a muscle-specific intermediate filament, plays a significant role in cardiac growth and development. METHODS AND RESULTS: To determine whether a defect of desmin induces dilated cardiomyopathy, 44 probands with FDCM underwent clinical evaluation and DNA analysis. Diagnostic criteria, detected by echocardiography, consisted of ventricular dimension of >/=2.7 cm/m(2) with an ejection fraction

Development of a faculty research interest resource.

We have developed a faculty research interests resource by "mining" MEDLINE for relationships that are not directly queryable through the normal MEDLINE schema. Faculty citations are retrieved and World-Wide Web pages built to interconnect authors, their citations, and the MeSH terms that have been assigned to these citations. The design and development of the resource are discussed and examples of the results illustrated.

Effect of exercise and tepary bean type diet on body composition and fat accretion in obese Zucker rats.

OBJECTIVE: The effectiveness of a tepary bean high fat type diet, compared to a purified type high fat diet and exercise, on body composition in fatty Zucker rats was determined. SUBJECTS AND DESIGN: Approximately 6-week-old female fa/fa Zucker rats were divided into four groups of 10 rats each: TE, fed the tepary bean type diet and exercised; TN, fed the tepary bean type diet and not exercised; CE, fed the purified type control diet and exercised; CN, fed the purified type control diet and not exercised. The exercise modality was treadmill running and the experiment lasted 13 weeks. MEASUREMENTS: Body weight, cumulative food intake, body composition, weights of adipose tissues and liver, heart and gastrocnemius muscle. RESULTS: At the end of the 13 week experiment, TE rats weighed 511 +/- 22 g and were significantly lighter than TN, 588 +/- 15 g; CE, 606 +/- 22 g; and CN, 660 +/- 27 g. All are means +/- s.e.m. The carcass of CN rats had 58, 20 and 13% more fat than TE, TN and CE rats, respectively; P < 0.01. Lean body mass was the same for all the groups of rats and ranged from means of 216-228 g. However, TE rats had significantly more fat free dry mass (FFDM) than CN rats; 68 +/- 4 vs 58 +/- 2 (means +/- s.e.m.) and tended to have more FFDM than TN and CE rats. Inguinal fat depots weighed 20-30% less in T than in C rats (diet comparisons) and also 20-30% less in E than in N rats (exercise comparisons). Perirenal/retroperitoneal fat depots weighed 25% less in TN than in CN rats and 38% less in TE than in CE rats. Exercise did not reduce perirenal/retroperitoneal fat depot weights. Parametrial fat depot weights were not influenced by diet or exercise. CONCLUSIONS: In diets which provided 37% of the energy from fat, the incorporation of tepary beans attenuated weight gain, and subcutaneous and visceral fat gain compared to a purified type diet. Exercised rats gained less weight and subcutaneous, but not visceral fat, than non-exercised rats.

Nucleotide sequence analysis and seroreactivities of the 65K heat shock protein from Mycobacterium paratuberculosis.

Mycobacterium paratuberculosis is the causative agent of Johne's disease, a chronic enteritis in ruminants. It has also been implicated as a possible cause of Crohn's disease, an inflammatory bowel disease of unknown etiology. The mycobacterial 65K heat shock proteins (hsp-65K) are among the most extensively studied mycobacterial proteins, and their immunogenic characteristics have been suggested to be the basis for autoimmunization in chronic inflammatory diseases. In this context, we isolated and sequenced the hsp-65K-encoding gene from our M. paratuberculosis PTB65K genomic library. A high degree of identity was found between the open reading frame (ORF) of the PTB65K gene and those of Mycobacterium tuberculosis (89.6%), Mycobacterium leprae (86.6%), and Mycobacterium avium 18 (98.8%). The amino acid sequence alignment of the PTB65K protein with the hsp-65K homologs revealed that the M. tuberculosis and M. leprae proteins each differed by 36 amino acid residues and that the M. avium 18 protein differed by 8 residues. We also investigated the humoral immune responses of animals with Johne's disease and patients with Crohn's disease against the recombinant PTB65K antigen. Immunoblot analysis showed that sera from only 3 of 10 clinically ill and 5 of 25 subclinically ill cows reacted with PTB65K. In addition, sera from two of two sheep and one of two goats with clinical symptoms of Johne's disease also reacted with PTB65K; 0 samples from 10 normal cows reacted. In humans, sera from 7 of 13 patients with Crohn's disease, 3 of 4 with tuberculosis, 5 of 6 with leprosy, 5 of 12 with non-inflammatory bowel disease, and 0 of 4 with ulcerative colitis reacted with the recombinant PTB65K antigen. These results indicate that this PTB65K heat shock protein is uninformative when used for serodiagnosis of Johne's disease in animals. However, in humans, the high intensity of antibody reactions of some sera from Crohn's disease patients compared with that from noninflammatory bowel disease patients showed a positive correlation with mycobacterial diseases.