MICROBIOLOGY and IMMUNOLOGY Volume 21, Issue 1

Studies on the Minimum Reproducible Unit of Staphylococcal L-Forms

The minimum size of a reproducible unit of staphylococcal L-forms was determined by filtration and electron microscopic methods. Ultrathin sections of an induced strain of Staphylococcal L-forms (STA-EMT-1) in liquid medium revealed several types of structures, all of which were bound by a single membrane and most of which possessed ribosome-like granules. Many of the small granules were less than 0.3, μm and were attached to the membrane of the large bodies. Using a serial filtration method, it was observed that viable L-forms were still detected in 0.22, μm filtrate, but the viable cell count of L-forms decreased in number with the decrease in pore size of membrane filters. A fractionation technique, using L-forms filtered through a membrane filter with a 0.45 μm pore size, revealed that there were three classes of small bodies but only the first class with ribosome-like granules over approximately 0.2 μm in diameter seems to be able to reproduce.

Studies on the Toxin of Aspergillus fumigatus

A hemolytic toxin has been obtained from mycelia and culture filtrates of Aspergillus fumigatus by the procedures that included precipitation with ammonium sulfate, chromatography of DEAE-Sephadex, affinity chromatography on Concanavalin A-Sepharose and gel filtration on Sephadex G-50, G-100 and G-150. The purified homolytic toxin was homogeneous on immunological and disk electrophoretic analysis, and the toxin from culture filtrates was identical with that from mycelia by the immunodiffusion technique. The hemolytic toxin was obtained for the first time from fungi and designated as Asp-hemolysin. The molecular weight of Asp-hemolysin was estimated to be approximately 30, 000 by the gel-filtration technique and its isoelectric point was found to be around pH 4.0. This Asp-hemolysin contained large amounts of protein and very small amounts of carbohydrate. The UV absorption spectrum of Asp-hemolysin showed a maximum absorption at 280 nm and minimum absorption at 251 nm. The extinction coefficient at 280 nm, E _??_, was 12.4 and the ratio of absorbance at 280 nm to that at 260 nm was 2.3. The optimum pH for the hemolytic activity of the toxin toward chicken erythrocytes was 5.0 at room temperature and it was active in the pH range of 3.5 to 10.5. The optimum temperature was 21 C and about 50% of the activity was lost by incubation at 50 C for 5 min or 45 C for 23 min. The hemolytic activity was remarkably inhibited by Hg²⁺, Cu²⁺, Fe²⁺, Ag¹⁺, iodine and p-CMB, but enhanced slightly by Zn²⁺ and Co²⁺.

Growth of Measles Virus in Various Human Lymphoid Cell Lines

Neurovirulent TYCSA strain and attenuated Schwarz strain of measles virus and Halle strain of subacute sclerosing panencephalitis (SSPE) virus replicated in cultures of human lymphoid cell lines of the T-cell type, MOLT-3, MOLT-4 and CCRF-CEM. TYCSA and Halle strains grew rapidly, but Schwarz strain grew slowly in these cell lines. Furthermore, these three strains established persistent infection in CCRF-CEM cells but not in the other cell lines. In these persistently infected cultures an almost entire population of cells were shown to be infected and infectious virus was produced constantly for over 100 days. Cells persistently infected with Schwarz strain contained nucleocapsid structures in both the nucleus and cytoplasm and produced low titered infectious virus, whereas nucleocapsid structures were observed only in the cytoplasm of cells persistently infected with either TYCSA or Halle strain and the titers of infectious virus produced from these cells were high.

Immunological Properties of Propionibacterium Acnes

Adjuvant activity of phenol-treated cells of Propionibacterium acnes C-7 in antibody response was investigated in ICR mice. Simultaneous administration. (day 0) of P. acnes (i.p.) and sheep red blood cells (SRBC) (i. v.) enhanced the formation of direct plaque-forming cells (PFC) on day 2, and the formation of indirect PFC response on day 7 and thereafter. Conversely, pretreatment from 11 to 14 days before antigen injection suppressed markedly the antibody response. The potentiation and the suppression of immune response depended on doses of antigen and of P. acnes, the timing of adjuvant injection and the time of assay. The two opposite phenomena caused by P. acnes were also confirmed in antibody response against hamster red blood cells (HRBC). Pretreatment with P. acnes 1 to 14 days before antigen injection suppressed markedly anti-HRBC antibody response, whereas P. acnes injected simultaneously with HRBC or one day after injection of the antigen induced prolongation of antibody response and the production of 2- mercaptoethanol-resistant antibody.