Augmented therapeutic results elicited by splenectomy in combined modality treatment of spontaneous murine breast cancer

Summary Because it had been reported that splenectomy produces a tumor-inhibitory effect in several transplantable tumor systems when the surgery is performed before tumor challenge, we attempted to examine this putative immunological manipulation in a therapeutic situation.A spontaneous, autochthonous, murine breast tumor system was utilized in the present studies, and treatment was initiated in animals bearing large tumors (averaging 0.5 g). To amplify any immunological benefit ensuing from splenectomy, the tumor burden in the host was reduced by ancillary treatment with enucleative tumor surgery or with enucleative tumor surgery plus cytoreductive combination chemotherapy.Splenectomy performed in conjunction with enucleative tumor surgery was associated with an increment of cure in each of four separate experiments in comparison to treatment with enucleative tumor surgery alone. In four of five experiments utilizing different combinations or schedules of chemotherapeutic agents following enucleative tumor surgery, the addition of splenectomy resulted in a decrease in the rate of tumor recurrence as well as an increment in the cure rate. In the fifth experiment, splenectomy resulted in a decrease in the rate of tumor recurrence, but did not effect the ultimate cure rate.Although the nature of the immunological changes resulting from splenectomy are incompletely defined at present, these results provide encouragement in the search for immunological treatments for solid tumors.This work was supported in part by Contract No. N01-CM-73703 and Grant IR01CA-14768-01A1, both from the National Cancer Institute, National Institutes of Health, Department of Health, Education and Welfare, USA, and in part by a grant from the Chemotherapy Foundation of New York, Inc.     

Isolation and characterization of naturally occurring subclasses of human peripheral blood T cells with regulatory functions.

By utilizing naturally occurring autoimmune antibodies from patients with juvenile rheumatoid arthritis, we have isolated and functionally characterized two unique subpopulations of T cells. JRA+ T cells, i.e., those identified by sera from these patients, react poorly in response to allogeneic cells, respond to Con A but not PHA, and do not help in the synthesis and secretion of Ig by B cells. In contrast, JRA- T cells, i.e., those not identified by sera from these patients, respond very well to allogeneic cells, proliferate well in response to PHA but not Con A, and more interestingly, can greatly enhance the secretion of Ig by B cells.     

ATP, trehalose, glucose and ammonium ion localization in the two cell types of Dictyostelium discoideum

Ultra-microfluorometric techniques were adapted to follow several compounds related to energy metabolism through the developmental cycle of Dictyostelium discoideum. Each compound (ATP, trehalose, glucose, and ammonium ion) was found to be present in stalk and/or spore cells. The accumulation of NH4+ was interpreted as an indication of protein degradation, a source of energy in this organism. During the early stages of differentiation NH4+ was localized only in prestalk cells. However, it accumulated in spore cells during culmination such that levels were comparable in the two cell types by the end of development. Trehalose, an energy source for germinating spores, was found in both cell types but was preferentially degraded in stalk cells late in development. Glucose, the degradation product of trehalose, was localized in prestalk cells and varied inversely with trehalose levels. ATP was not localized in a specific cell type during development. However, ATP declined in stalk cells at an earlier stage of development.     

Variations in ecdysteroid levels in 5th instar larvae of Schistocerca gregaria in gregarious and solitary phases

Moulting hormone levels in whole bodies of 5th instar S. gregaria were determined throughout the 5th larval instar using gas chromatography with electron capture detection of the derivatized hormone. No differences were found between hormone levels in insects in the gregarious and solitary phase. No evidence for the existence of polar ecdysteroid conjugates used for storage or transport of these hormones was found. Approximately one tenth of the 20-hydroxyecdysone observed in the gregarious insects was detected in the faeces, almost equally divided between free hormone and polar conjugates of it.     

Microtubule reassembly in vitro of Strongylocentrotus purpuratus sperm tail outer doublet tubulin

Strongylocentrotus purpuratus outer doublet microtubules were prepared by extraction of sperm tail axonemes with 0.6 m-KCl. Sonication of the outer doublet microtubules in 5 mm-2-(N-morpholino)ethanesulphonic acid, 1 mm-ethyleneglycol-bis-(β-aminoethyl ether) N,N′-tetraacetic acid, 1 inm-MgSO₄ (pH 6.7) solubilized up to 35% of the outer doublet protein, depending on the power input, in a manner which was non-selective for either subfiber. Tubulin comprised 75 to 85% of the total solubilized protein in a 200,000 g supernatant obtained from the sonicated suspension. Colchicine-binding assays demonstrated that the tubulin was largely in a native form (K_A = 10⁶, liters mole^?; 0.74 mole of colchicine bound per mole of tubulin at infinite concentration of colchicine).Microtubule self-assembly from the 200,000 g supernatants in the absence of added seeds or glycerol was quantitated by light-scattering at 350 nm. The critical protein concentration for assembly was 0.55 mg ml^?1 at 37 °C and the reaction occurred optimally in the presence of 2 mm-GTP and 150 mm-KCl. The solubilized outer doublet tubulin formed singlet microtubules upon reassembly under our in vitro conditions. The authenticity of the microtubules was verified by both negative stain and thin-section electron microscopy. Polymerization was prevented by colchicine and podophyllotoxin, and depolymerization occurred rapidly on cooling the microtubules to 0 °C.The susceptibility of the reassembled microtubules to low temperature suggested that they could be “recycled” by the warm assembly-cold disassembly procedure developed for vertebrate brain (Borisy et al., 1974). Twice recycled outer doublet tubulin was devoid of high molecular weight microtubule-associated proteins, as judged by gel electrophoresis in the presence of sodium dodecyl sulfate. However, trace amounts (less than 5%) of intermediate molecular weight material was visible on heavily overloaded gels. The function of this material is uncertain, but it is not chemically equivalent to the tau factor of vertebrate brain (Weingarten et al., 1975), since it cannot be separated from the tubulin by phosphocellulose adsorption. In addition, phosphocellulose-treated tubulin reassembled to the same extent as untreated tubulin, suggesting that the reassembly of outer doublet tubulin does not require the protein equivalents of brain microtubule-associated proteins or tau factor. If accessory proteins are required for the reassembly of outer doublet tubulin, they are not removed by phosphocellulose under the conditions employed, and they must comprise less than 5% of the total protein.     

Adenovirus type 2 mRNA in transformed cells: map positions and difference in transport time.

Adenovirus type 2 rat transformed cells produced two polyadenylic acid-terminated mRNA's with approximate coordinates 1.5-4.4 and 4.4-11.0 on the physical map of the adenovirus type 2 genome. These mRNA's were also formed early during lytic infection in addition to one or more smaller mRNA's from the 4.4-11.0 region. In transformed cells, the 1.5-4.4 mRNA appeared in the cell cytoplasm without detectable lag, whereas the 4.4-11.0 mRNA required at least 20 to 30 min for the maximal rate of accumulation.     

Okanin 4′-O-diglucoside from Coreopsis petrophiloides and comments on anthochlors and evolution in Coreopsis

A new chalcone glycoside, okanin 4′-O-diglucoside, is identified from the ray florets of Coreopsis petrophiloides. The known distribution of anthochlors in Coreopsis indicates that two of the most primitive sections produce in their floral parts complex glucosides of butein (and sulfuretin). The more advanced sections synthesize the monoglucosides of okanin (marein), butein (coreospin) and lanceoletin (lanceolin) and their corresponding aurones. The co-occurrence of marein and lanceolin is thus far restricted to members of sect. Coreopsis.     

Light-dependent Emission of Hydrogen Sulfide from Plants

With the aid of a sulfur-specific flame photometric detector, an emission of volatile sulfur was detected from leaves of cucumber (Cucumis sativus L.), squash and pumpkin (Cucurbita pepo L.), cantaloupe (Cucumis melo L.), corn (Zea mays L.), soybean (Glycine max [L.] Merr.) and cotton (Gossypium hirsutum L.). The emission was studied in detail in squash and pumpkin. It occurred following treatment of the roots of plants with sulfate and was markedly higher from either detached leaves treated via the cut petiole, or whole plants treated via mechanically injured roots. Bisulfite elicited higher rates of emission than sulfate. The emission was completely light-dependent and increased with light intensity. The rate of emission rose to a maximum and then declined steadily toward zero in the course of a few hours. However, emission resumed after reinjury of roots, an increase in light intensity, an increase in sulfur anion concentration, or a dark period of several hours.

The emission was identified as H₂S by the following criteria: it had the odor of H₂S; it was not trapped by distilled H₂O, but was trapped by acidic CdCl₂ resulting in the formation of a yellow precipitate, CdS; it was also trapped by base and the contents of the trap formed methylene blue when reacted with N,N-dimethyl-p-phenylenediamine and Fe³⁺.

H₂S emission is not the cause of leaf injury by SO₂, since bisulfite produced SO₂ injury symptoms in dim light when H₂S emission was low, while sulfate did not produce injury symptoms in bright light when H₂S emission was high.

The maximum rates of emission observed, about 8 nmol min⁻¹ g fresh weight⁻¹, are about the activity that would be expected for the sulfur assimilation pathway of a normal leaf. H₂S emission may be a means by which the plant can rid itself of excess inorganic sulfur when HS⁻ acceptors are not available in sufficient quantity.