[Age-specific morphophynctional features of pancreatic endocrine apparatus in rats.]

Dysfunctions of endocrine organs play a priority role in the disruption of the regulation of normal functioning of the aging body. In the study age-related morphological and functional changes in the rat pancreatic insula apparatus have been investigated. With age fibrosis increased in both the pancreatic islets and exocrine pancreas. Non-functional hypertrophy of the islets, mainly due to the proliferation of connective tissue, was observed in rats under conditions of physiological aging. Immunohistochemical and biochemical studies revealed depletion of the islets insulin-producing function, development of hyperglycemia, accumulation of glycated proteins in the blood and change in oxidative stress indicators in 24-month-old rats.

[Age and gender aspects of the status of lipid profile and stress-realizing systems of the human body in the aging process].

In the course of inspection 1136 persons of different age and sex data on dynamics of the main components of lipid profile, the concentration of brain-derived neurotrophic factor (BDNF) in blood plasma and indicators of levels of free cortisol, melatonin sulfate, metanephrine and normetanephrine in urine daily were obtained. Clear age and gender differences related both to the content of atherogenic fractions of lipids in the blood, and types of dyslipidemia were revealed. Fundamental differences in the age dynamics of indicators of stress-realizing systems in men and women and the correlation of these indicators with the level of low density lipoproteins and atherogenic coefficient were identified. The data obtained may indicate different mechanisms of development of atherosclerosis and its associated pathological aging in people of different sex and age, which enables the practical use of research results for the earliest diagnosis and prognosis of a number of associated with age and pathological conditions.

On the nature of obligate intracellular symbiosis of rickettsiae--Rickettsia prowazekii cells import mitochondrial porin.

Mitochondrial porin was identified in Rickettsia prowazekii by Western blot analysis of whole cells and membrane fractions with monoclonal antibody against porin VDAC 1 of animal mitochondria. Using the BLAST server, no protein sequences homologous to mitochondrial porin were found among the rickettsial genomes. Rickettsiae also do not contain their own porin. The protein imported by rickettsiae is weakly extracted by nonionic detergents and, like porin in mitochondria, is insensitive to proteinase K in whole cells. Immunocytochemical analysis showed that it localizes to the outer membrane of the bacterial cells. These data support an earlier suggestion about import by rickettsiae of indispensable proteins from cytoplasm of the host cell as a molecular basis of obligate intracellular parasitism. They are also consistent with the hypothesis invoking a transfer of genes specifying surface proteins from the last common ancestor of rickettsiae and mitochondria to the host genome, and preservation by rickettsiae of the primitive ability to import these proteins.

Rickettsiaceae, rickettsia-like endosymbionts, and the origin of mitochondria.

Accumulating evolutionary data point to a monophyletic origin of mitochondria from the order Rickettsiales. This large group of obligate intracellular alpha-Proteobacteria includes the family Rickettsiaceae and several rickettsia-like endosymbionts (RLEs). Detailed phylogenetic analysis of small subunit (SSU) rRNA and chaperonin 60 (Cpn60) sequences testify to polyphyly of the Rickettsiales, and consistently indicate a sisterhood of Rickettsiaceae and mitochondria that excludes RLEs. Thus RLEs are considered as the nearest extant relatives of an extinct last common ancestor of mitochondria and rickettsiae. Phylogenetic inferences prompt the following assumptions. (1) Mitochondrial origin has been predisposed by the long-term endosymbiotic relationship between rickettsia-like bacteria and proto-eukaryotes, in which many endosymbiont genes have been lost while some indispensable genes have been transferred to the host genome. (2) The obligate dependence of rickettsiae upon a eukaryotic host rests on the import of proteins encoded by these transferred genes. The nature of a proto-eukaryotic cell still remains elusive. The divergence of Rickettsiaceae and mitochondria based on Cpn60, and the evolutionary history of two aminoacyl-tRNA synthetases favor the hypothesis that it was a chimera created by fusion of an archaebacterium and a eubacterium not long before an endosymbiotic event. These and other, mostly biochemical data suggest that all the mitochondrion-related organelles, i.e., both aerobically and anaerobically respiring mitochondria and hydrogenosomes, have originated from the same RLE, while hydrogenosomal energy metabolism may have a separate origin resulting from a eubacterial fusion partner.

Evolutionary relationship of Rickettsiae and mitochondria.

Phylogenetic data support an origin of mitochondria from the alpha-proteobacterial order Rickettsiales. This high-rank taxon comprises exceptionally obligate intracellular endosymbionts of eukaryotic cells, and includes family Rickettsiaceae and a group of microorganisms termed Rickettsia-like endosymbionts (RLEs). Most detailed phylogenetic analyses of small subunit rRNA and chaperonin 60 sequences consistently show the RLEs to have emerged before Rickettsiaceae and mitochondria sister clades. These data suggest that the origin of mitochondria and Rickettsiae has been preceded by the long-term mutualistic relationship of an intracellular bacterium with a pro-eukaryote, in which an invader has lost many dispensable genes, yet evolved carrier proteins to exchange respiration-derived ATP for host metabolites as envisaged in classic endosymbiont theory.

Nucleotide sequence of the gene and features of the major outer membrane protein of a virulent Rickettsia prowazekii strain.

We have determined the nucleotide sequence of the gene for a major outer membrane protein (MOMP) of apparent molecular weight 29.5 kD of the virulent Breinl strain of Rickettsia prowazekii. The gene contains an open reading frame (ORF) that encodes a 282-amino-acid polypeptide with a calculated molecular mass of 31549 daltons. A signal-like peptide sequence is found at the deduced N terminus. A heterologous 29.5-kD antigen expressed in Escherichia coli was shown to be secreted into the periplasm. A database search for similar protein sequences revealed considerable homology of the polypeptide with the E. coli peptidyl-prolyl cis/trans isomerase and related proteins of the parvulin family. The genes for MOMP of the virulent Breinl and EVir strains and the vaccine Madrid E strain were amplified using specific primers and cloned into expression vector pQE-30. We found that the polypeptides encoded by the recombinant DNAs do not differ in SDS-PAGE mobility, while the native MOMP of the Breinl strain is known to be different from the corresponding proteins of the Madrid E and EVir strains. Furthermore, no differences within the ORF for the 29.5-kD proteins of the three strains were found by restriction endonuclease analysis of polymerase chain reaction (PCR) products. A possible role of parvulin-like protein (Plp) in the virulence of epidemic typhus agent and the nature of interstrain differences are discussed. Near the plp gene on the opposite strand, an origin of the gene that codes for the SecA subunit of a preprotein translocase was found.

Molecular cloning and expression of Rickettsia prowazekii genes for three outer membrane proteins in Escherichia coli.

Rickettsia prowazekii (virulent Breinl strain) random genomic DNA fragments were cloned in the lambda gt11 expression vector by using non-palindromic adaptors. Several immunoreactive clones were selected after screening 20,000 individual recombinant plaques with human convalescent serum. Some recombinants expressed complete 60 kDa polypeptide, and others expressed beta-galactosidase fusion polypeptides containing different epitopes of 134 kDa protein of the R. prowazekii outer membrane (OM). Amplified genomic library was screened with monospecific antibodies directed against abundant 31 kDa and 29.5 kDa OM proteins (OMPs). Several recombinant clones expressing full or part of 29.5 kDa polypeptide, and none expressing 31 kDa polypeptide were revealed. The serum of a patient convalescing from epidemic typhus did not react in Western blot with recombinant 29.5 kDa protein.

Methods for purification of Rickettsia prowazekii separated from the host tissue: a step-by-step comparison.

Two methods for purification of Rickettsia prowazekii strains E, E Vir, and Breinl grown in chick embryo yolk sacs are described. These methods combine either differential centrifugation or sucrose mix, centrifugation through sucrose cushion, 10 mmol/l MgCl2 treatment, filtration through a glass filter AP-20 and 2 cycles of verografin discontinuous density gradient centrifugation. The purification procedure including sucrose mix allowed to recover about 38-42% biologically active rickettsiae, a yield which was by 10% higher than that obtained by the method beginning at differential centrifugation. The rickettsiae free of host cell components preserved their infectious activity. The obtained biomass was suitable for immunological and biological characterization of Rickettsia prowazekii and for isolation of its total DNA.