The quantitative histochemistry of ribonucleic acid using gallocyanin.

A method for the cytophotometric estimation of ribonucleic acid in tissue sections using gallocyanin-chrome alum is described. The dye obeys Beer's law in gelatin sections. The effect of deoxyribonuclease on the staining of ribonucleic acid is also investigated. The results indicate that this method is of value in the quantitation of ribonucleic acid.     

Anti-tumor immunity in B lymphocyte-deprived mice. I. Immunity to a chemically induced tumor.

Immunity to a syngeneic methylcholanthrene-induced tumor was studied in (C57BL/6 X C3H)F1 males, treated continuously from birth with a rabbit anti-mouse IgM serum. Such mice have been shown to be selectively depleted of Ig-bearing lymphocytes and incapable of synthesizing antibodies. In the experiments reported, a heightened resistance of these mice to the syngeneic fibrosarcoma was demonstrated. This resistance was manifest in significantly slower tumor growth at the site of injection, as well as a lower incidence of spontaneous pulmonary metastasis.     

The immune response to a chemically induced fibrosarcoma

Summary A clone of C3H10T 1/2 fibroblasts transformed in vitro with the carcinogen 3-methylcholanthrene readily produced tumors when as few as 10³ cells were injected into immunocompetent adult syngeneic mice. A non-transformed clone of the same parentage did not produce tumors. Because the cell-mediated immune response has an important role in inhibiting the growth of tumors, we have compared the ability of both these transformed and non-transformed fibroblasts to stimulate and to act as targets in cell-mediated cytotoxicity (CMC) assays. This model is unique in that studies of the immune response to tumors rarely have or utilize appropriate normal controls. When both types of irradiated fibroblasts were used as stimulators in vitro, neither syngeneic nor allogeneic effector spleen cells capable of efficiently lysing the tumor fibroblasts were generated. In contrast, the normal fibroblasts could both stimulate and be lysed by allogeneic cytolytic T cells (CTL). However, the tumor fibroblasts could be lysed by allogeneic effector spleen cells that had been sensitized to C3H/He spleen cells. These results suggest that the expression of alloantigenic determinants necessary for stimulating a CMC response may vary substantially among normal cell types. They further indicate that the tumor cells are not resistant to lysis by appropriately stimulated effector cells. Thus, they must express antigenic determinants necessary for immune lysis and they do not inhibit the functional expression of cytolytic cells once generated. Consequently, tumor growth in vivo may be dependent, in part, upon a failure of the syngeneic host's immunocompetent cells to respond appropriately to the tumor cells. Additional data are provided which suggest that this failure is attributable in large part to immunosuppressive properties of the tumor cells.     

The relation between chemically induced sister-chromatid exchanges and chromatid breakage.

Studies of classical chromosome aberrations and sister-chromatid exchanges (SCES) suggest independent mechanisms for the two events despite some common features. Examination of chromosome breakage caused by X-rays, visible light, and viruses has shown that few chromatid breaks are accompanied by SCEs at the sites of breaks. No similar observations were available for chemically induced breaks, but it has been reported that rat chromosomes exposed to dimethylbenzanthracene (DMBA) contained a preponderance of both aberrations and SCEs in certain specific regions, implicating a common process in their formation. These conclusions were drawn from a comparison of breaks induced in vivo with SCEs induced in vitro. However, we used 7 chemical mutagens to induce both chromatid breaks and SCEs in "harlequin" chromosomes of cultured rat and Chinese hamster ovary (CHO) cells and found that 25% of the 914 breaks scored were associated with SCEs. The proportion of breaks accompanied by SCEs is related to the overall SCE frequency and falls into the range predicted on the basis that breaks and SCEs occur independently. The reported association between sites for SCEs and aberrations also reflects secondary factors, such as induction of SCEs and aberrations during DNA synthesis in late replicating regions of the chromosomes.     

The quantitative histochemistry of multiple sclerosis plaques: acid proteinase and other acid hydrolases.

Abstract— Sensitive micromethods were used to study the plaques, adjacent white matter and remote, grossly normal white matter from two cases of multiple sclerosis and to compare them with white matter from normal controls. Lipid-free dry wt/unit of volume was found to be similar for plaques and for normal white matter, reflecting a high water content of plaque tissue and establishing a base for comparison of enzyme activities. Elevations of acid proteinase in and around plaques were confirmed, but they were far exceeded by the increases in acid phosphatase; other acid hydrolases (β-galactosidase, β-glucuronidase and dipeptidyl arylamidase II) showed no significant or consistent changes. However, an acid lipase-esterase hydrolysing 4-methylumbelliferyl oleate was about 30% as active in plaques as in normal-appearing white matter. Glucose-6-phosphate dehydrogenase was unchanged except in one plaque, but lactic dehydrogenase was markedly elevated both in plaques and adjacent white matter. The grossly normal white matter of MS patients, although histologically far from normal (showing gliosis, perivascular infiltrations and small plaques), did not differ significantly from controls with regard to the activity of any of the enzymes studied. DNA levels were much reduced in plaques, but comparisons were difficult because of the apparent gliosis in normal white matter. Decreases in dry wt/unit vol, reflecting partial demyelination, could be shown to extend in a gradient to a distance of about 2 mm. from the edge of certain plaques.     

The enzymic and chemically induced decomposition of glucosinolates

While the myrosinase-glucosinolate system has been reviewed in recent years by a number of authors, little attention has been paid to the enzymic and non-enzymic degradation of glucosinolates. Non-enzymic degradation processes are particularly important in the processing of brassica vegetables with respect to both flavour and in the role of glucosinolates as precursors of anticancer compounds in the diet. This review highlights early empirical work on glucosinolate degradation along with more recent aspects related to current research on mechanism of glucosinolate degradation in plants, microbes and animals.