Rapid high-pressure liquid chromatographic determination of methotrexate and its metabolites 7-hydroxymethotrexate and 2,4-diamino-N10-methylpteroic acid in biological fluids

A rapid and sensitive high-pressure liquid chromatographic method for determination of methotrexate and its metabolites 7-hydroxymethotrexate and 2,4-diamino-N¹⁰-methylpteroic acid has been developed. The assay is based on isocratic reversed-phase chromatography with siliceous microparticulate Spherisorb (5 μm, ODS, 15 × 0.4 cm i.d.) as stationary phase and a ternary solvent mixture of citrate-phosphate (0.05 m, pH 3.2)/methanol/tetrahydrofurane (80:16:4, v/v) as eluant. A precolumn of Perisorb (RP2, 30–40 μm, 3 × 0.4 cm i.d.) reasonably protects the analytical column against deterioration by the components of plasma or other biological fluids. Since the samples of plasma, urine, or cerebrospinal fluid are directly injected into the chromatographic system, the method is very rapid. Within 8 min as little as 50 ng of methotrexate and its metabolites per milliliter (10^?7m) can be measured with a precision better than 7%. Structural analogs of methotrexate do not interfere with the determination. There is a good correlation with the results of other methods, e.g., enzyme immunoassay or radioimmunoassay. The applicability for clinical monitoring in patient's plasma and urine is demonstrated.     

The induction of suppressor T cells by lipopolysaccharide in human peripheral blood lymphocyte cultures in the presence of fetal calf serum

Alveolar macrophages (AM) were collected by repeated endobronchial lavage from mice, rats, guinea pigs, and rabbits, and titrated into cultures of mitogen-stimulated syngeneic or autochthonous lymphocytes. Significant species differences were detected in regard to AM activity in the cultures. AM from guinea pigs and mice stimulated PHA-induced lymphoproliferation, while those from rats and rabbits were inhibitory; blood or peritoneal macrophages were not inhibitory in any of the species examined.     

The mixed lymphocyte response of senescent mice: sensitivity to alloantigen and cell replication time.

The age-dependent alteration in the proliferative response of C57B1/6J lymph node cells to stimulation by H-2- and M-locus alloantigens was examined in one-way mixed lymphocyte cultures (MLC). Balb/c (H-2^d, Mls^b) and DBA (H-2^d, Mls^a) spleen cells served as stimulating cells differing from C57B1/6J (H-2^b, Mls^b) at the H-2 and H-2 plus Mls loci, respectively. The day of peak response and the ratio of responder to stimulator cells required for optimal stimulation were the same for all the age groups (3 to 29 months) tested, irrespective of the stimulator strain used. Results obtained in MLC under optimal conditions showed a maximal response to both Balb/c and DBA/2 stimulation at the age of 6 months, followed by a gradual decline in the response with age. In order to determine whether the decline with age in mixed lymphocyte reactivity can be attributed to a reduction in the proliferative capacity of the responding lymphocytes of aged mice, cell cycle analyses were performed. Auto-radiographic studies of MLC containing lymphocytes from CS7B1/6J mice aged 6 and 24 months showed no difference in generation time, S, G₂, G₁, and M phases of the cell cycle. In addition, lymphocytes of both age groups underwent two identical mitotic waves within the period of examination. Our results determine that the functional decline with age in proliferative activity in mixed lymphocyte cultures is attributable to a neither decrease in sensitivity to alloantigen nor to a decrease in generation time or the ability to undergo several mitotic divisions, and suggest that such a decline is caused by fewer cells capable of response in old mice.     

Membrane dynamics of lymphocyte interaction with antigen and tolerogen.

The principle of hapten-specific carrier-dependent immunologic tolerance was used to study the in vivo and in vitro interaction of lymphocyte membrane receptors with antigen (DNP-KLH) and tolerogen (DNP-MGG). Direct fluorescent techniques were employed to illustrate the binding of tolerogeu and antigen to the same population of lymphoid cells and the subsequent in vivo and in vitro events related to capping and regeneration of membrane receptors.     

Adrenaline involvement in the presynaptic beta-adrenoceptor-mediated mechanism of dopamine release from slices of the rat hypothalamus

Slices of rat hypothalamus were superfused and endogenous release of dopamine (DA) was measured by high performance liquid chromatography combined with electrochemical detection. The K+ (20 mM)-evoked release in the presence of tetrodotoxin was Ca2+-dependent. The evoked release was facilitated by a beta-agonist, isoproterenol and this effect was completely abolished by a beta-antagonist, 1-propranolol. Isoproterenol also concentration-dependently facilitated the electrically (at 5Hz) evoked release of DA. The pretreatment with 1-propranolol, beta 1-antagonist, atenolol and beta 2-antagonist, butoxamine shifted the concentration-effect curve of isoproterenol to the right. On the other hand, beta 1-agonist, tazolol, beta 2-agonist, salbutamol and low concentration (10(-9) M) of adrenaline also facilitated the release. 1-Propranolol alone reduced the electrically (at 2 Hz) evoked release, and this effect was completely abolished when the adrenaline content in the brain was drastically reduced by use of a potent PNMT inhibitor, DCMB. These findings suggest that in the rat hypothalamus adrenaline released from adrenaline-containing nerve terminals probably modulates DA release via presynaptic beta 1- and beta 2-adrenoceptors on DA nerve terminals.     

Human lymphocyte subpopulations identified by bacterial adherence are functionally different.

Previously, two B (B₁ and B₂)- and four T (T₁, T₂, T₃, T₄)-lymphocyte subpopulations have been identified in human blood smears by bacterial adherence. Here, to study the functional differences between these subpopulations the T₁T₂ cells were separated from T₃T₄ cells by selective adherence to Escherichia coli-2⁴ monolayers. The adherent cells (T₁T₂ cells) responded well to concanavalin A in 3-day cultures and in mixed lymphocyte culture (MLC) in 6-day cultures and developed into cells specifically cytotoxic for allogeneic lymphocytes. The nonadherent cells (T₃T₄ cells) cultured for the same length of time were poorly responsive to concanavalin A, variably responsive in MLC, and poorly active in specific cytotoxicity. The T₃T₄ cells were naturally cytotoxic for allogeneic lymphocytes and for a normal lymphoblastoid cell line. We concluded that the T cells that bind E. coli-2 (T₁T₂ cells) are functionally different from those that do not bind (T₃T₄ cells).     

Studies on the role of lymphocyte-activating factor (Interleukin 1) in antigen-induced lymph node lymphocyte proliferation

The in vitro proliferation of primed lymph node lymphocytes (LNL) in response to the soluble antigen ovalbumin (OVA) was dependent upon the presence of adherent cells. Restoration of OVA-induced LNL proliferation could be achieved by addition of highly purified lymphocyte-activating factor (LAF; Interleukin 1, IL 1): LAF (IL 1) did not stimulate LNL proliferation in the absence of the priming antigen or T lymphocytes. Furthermore, treatment of the LNL with antimacrophage serum completely blocked the ability of the LNL to respond to OVA and LAF (IL 1), suggesting that the residual macrophages in the LNL population were necessary to provide an additional function or signal, possibly antigen presentation, in conjunction with LAF (IL 1). These data therefore support the two signal hypothesis of macrophage-mediated lymphocyte activation and demonstrate the ability of LAF (IL 1) to provide one of these signals.     

Biosynthesis of tetrahydrobiopterin: possible involvement of tetrahydropterin intermediates

The biosynthetic pathway of tetrahydrobiopterin (BH₄) from dihydroneopterin triphosphate (NH₂P₃) was studied in fresh as well as heat-treated human liver extracts. The question of NAD(P)H dependency for the formation of sepiapterin was examined. NH₂P₃ was converted by fresh extracts to sepiapterin in low quantities (2% conversion) in the absence of exogenously added NADPH as well as under conditions that ensured the destruction of endogenous, free NAD(P)H. The addition of NADPH to the fresh liver extracts stimulated the synthesis of BH₄ to a much higher yield (17% conversion), and the amount of sepiapterin formed was reduced to barely detectable levels. In contrast, the heat-treated extract (enzyme A2 fraction) formed sepiapterin (1.3% conversion) only in the presence and not in the absence of NADPH. These results indicate that sepiapterin may not be an intermediate on the pathway leading to BH₄ biosynthesis under normal $\text{in vivo}$ conditions. Rather, sepiapterin may result from the breakdown of an as yet unidentified intermediate that is actually on the pathway. It is speculated that NH₂P₃ may be converted to a diketo-tetrahydropterin intermediate (or an equivalent tautomeric structure) by a mechanism involving an intramolecular oxidoreduction reaction. A diketo-tetrahydropterin intermediate could be converted to 5,6-dihydrosepiapterin, which also has a tetrahydropterin ring system and can be converted directly to BH₄ by sepiapterin reductase. This proposed pathway can explain ho the tetrahydropterin ring system can be formed without sepiapterin, dihydrobiopterin, or dihydrofolate reductase being involved in BH₄ biosynthesis $\text{in vivo}$.     

Physical studies of RNA involvement in bacteriophage lambda DNA replication and prophage excision

Non-diffusible genetic elements in bacteriophage λ DNA replication and λ prophage excision have been analyzed by the DNA-cutting assay of Freifelder and Kirschner (1971) and Freifelder et al. (1972). The mutant ti12, which affects a unique site for replication in or near the origin of replication (Dove et al., 1971), makes λ DNA partially refractory to replicative DNA-cutting. RNA synthesis in the vicinity of the origin, of replication seems to control the susceptibility of λ DNA to replicative DNA-cutting (Dove et al., 1969). Analogously, RNA synthesis in the vicinity of the left-hand prophage terminus seems to control excisional DNA-cutting of derepressed λ DNA, as predicted by the studies of Davies et al. (1972). These physical studies confirm previous genetic analyses and imply that the elements involved act at a very early stage in replication and in excision.     

Evidence for the identification of lymphocyte activating factor as the adherent cell-derived mediator responsible for enhanced antibody synthesis by nude mouse spleen cells

Human adherent peripheral blood leukocytes spontaneously elaborate both a thymocyte proliferative factor and a factor which augments the in vitro anti-sheep erythrocyte (SRC) plaque-forming cell (PFC) response of nu/nu mouse spleen cells. Nonadherent leukocytes do not spontaneously elaborate either factor. The adherent cell-derived factors appear to have an identical molecular weight (approximately 14,500 Daltons) as determined by Sephadex gel filtration. The data support the hypothesis that the molecule(s) mediating both enhancing activities is identical to the previously described adherent leukocyte product, LAF.     

Control mechanism of lymphocyte traffic. A study of the action of two sulfated polysaccharides on the distribution of 51Cr- and [3H]adenosine-labeled mouse lymph node cells

The effects of dextrans of varying molecular weights and of pentosan sulfate on the distribution of ⁵¹Cr-labeled mouse lymph node cells were studied in vivo, i.e., in recipients treated with the sulfated polysaccharides, and in vitro, i.e., by following the fate of cells treated in vitro, in intact syngeneic recipients. Both types of experiments demonstrate that dextrans, especially dextran sulfate (DXS) and pentosan sulfate (PS), considerably reduce lymph node entry of lymphocytes, with concomitant increases in the blood and, in the case of DXS, in both the blood and lungs. A parallel quantitative autoradiographic analysis of the distribution of [³H]adenosine-labeled cells confirmed the data with the ⁵¹Cr-labeled cells and, in adidtion, indicated that DXS and PS slow down circulation of lymphocytes through the marginal zone and red pulp of the spleen and, in the case of DXS, in the pulmonary capillary bed. Unusually large numbers of unlabeled lymphocytes were found in the endothelial wall of the post-capillary venules in lymph nodes of PS-treated mice.     

Cleavage of head and tail proteins during bacteriophage T5 assembly: selective host involvement in the cleavage of a tail protein

Electrophoresis studies showed that at least three phage-specified proteins undergo proteolytic cleavage during the development of bacteriophage T5. One of these proteins has a molecular weight of about 135,000 and the product of this cleavage reaction is a minor component of the T5 tail, having a molecular weight of about 128,000. All of the tail-defective T5 mutants studied in this report failed to induce this cleavage reaction under restrictive conditions. This reaction also failed to occur in Escherichia coli groEA639 and groEA36 infected with wild type T5. Examination of lysates of infected groE cells in the electron microscope revealed the presence of filled and empty heads as well as tubular head structures, but no tails were detected. The filled heads were able to combine with separately prepared T5 tails in vitro to form infectious phage particles. Therefore, propagation of T5 in these groE mutants is prevented primarily by a specific block in tail assembly. A T5 mutant, T5?6, was isolated, which has the capacity to propagate in these groE hosts. The gene locus in T5?6 was mapped.The second T5 protein which is cleaved has a molecular weight of 50,000 and is related to head morphogenesis. Treatment of infected cells with l-canavanine (50 μg/ml) inhibited cleavage of this polypeptide. Only small quantities of the major head protein (32,000 mol. wt) were produced in these treated cells. Treatment with canavanine lead to production of tubular heads. The major protein component of partially purified tubular heads has a molecular weight of 50,000. Cells infected with T5 amber H30b, a mutant defective in head gene D20, does not produce the 50,000 and 32,000 molecular weight proteins. These findings suggest that the 50,000 molecular weight protein undergoes cleavage to form the major head polypeptide. A third T5 protein is cleaved to form a minor head component with a molecular weight of 43,000 and its cleavage is linked to that involving the major head protein.     

The biosynthesis of ubiquinone in isolated rat heart cells

Beating heart cells were isolated from the adult rat and the biosynthesis of ubiquinone was studied. These cells were able to incorporate p-hydroxy[U-¹⁴C]benzoate into ubiquinone and some unidentified compounds, presumably intermediates in the biosynthesis of ubiquinone. The unidentified compounds were labile to alkali and were also labeled by [5-³H]-mevalonate and [methyl-³H]methionine, but not by p-hydroxy[carboxy-¹⁴C]benzoate. They appear to be chromatographically different from 5-demethoxy ubiquinone and 5-desmethyl ubiquinone. Addition of unlabeled mevalonate stimulated the incorporation of p-hydroxy [U-¹⁴C]benzoate into ubiquinone and the other compounds. The addition of dimethylsulfoxide to the isolated cells or the isolation medium caused inhibition of ubiquinone biosynthesis. Adriamycin was not inhibitory to the biosynthesis of ubiquinone in the cells. The advantages of these cells are the rapidity and ease in studying the biosynthesis of ubiquinone from various precursors and its regulation.     

The roles of the opioid peptides in controlling thyroid stimulating hormone release

We have studied the role of the opioid peptides in controlling TSH secretion. Morphine sulfate significantly decreased, while naloxone had no effect on, basal plasma TSH levels of female rats. In contrast, naloxone blocked the stress-induced fall in plasma TSH. Microinjection of β-endorphin into the third ventricle resulted in a fall in TSH while such injection of naloxone into the posterior hypothalamus increased TSH. Microinjection of β-endorphin directly into the pituitary caused a rise in plasma TSH. It is concluded that opioid peptides probably play no role in basal TSH secretion, but are involved in the stress-induced fall in TSH. Furthermore, it appears that opioid peptides have a site of action in the hypothalamus to decrease TSH and a direct pituitary action to increase TSH.     

The use of hormone-supplemented serum-free media in primary cultures.

Recent advances in tissue culture and endocrinology have made possible the growth of established cell lines in hormone-supplemented serum-free media. The hormone requirements differ for different cell types but are similar or identical for the same cell types. The hormone supplements derived for four different cell types, a melanoma, GH3 pituitary tumor, and testicular cell lines TM3 and TM4 are used in preparing primary cultures for organs to detect melanoma metastasis, and grow normal pituitary and normal Leydig and Sertoli cells, respectively. This hormone supplementation and the concomitant elimination or reduction of the serum requirement is shown to have several advantages in the preparation of primary cultures including prolonged viability and function, partial or total selection of the desired cell type and inhibition of fibroblast overgrowth.It is felt that such culture systems will significantly expand the range of problems which can be approached using primary culture systems.     

The determination of purine levels in human and mouse plasma

Variable levels of acetic anhydride have been recommended for addition to one of two reagents used in the glyoxylic acid method for the determination of tryptophan. For use of this reagent immediately after preparation it was shown that a minimum of 16% (v/v) of acetic anhydride should be included in the formulation to obtain near-maximum sensitivity. It was further demonstrated that reagent formulations with and without acetic anhydride changed with exposure to light. The observed changes are manifest as changes in the relative sensitivities of the assay. Several modifications are recommended to improve the sensitivity and stability of the acetic anhydride-containing reagent in this assay.     

The absence of cell death during development of free digits in amphibians

Massive cellular death occurs in the interdigital regions of developing limbs of free-digited birds and mammals. This mesodermal degeneration occurs at the same time that digits become free. The present study of digit formation in amphibians, using vital staining and histological and autoradiographic techniques, demonstrates the absence of zones of interdigital degeneration during the formation of free digits. Furthermore, no other areas of predictable cell death occur during amphibian limb development, a situation quite unlike the case for avian limb development where predictable zones of degeneration occur in the mesoderm along the pre- and postaxial borders of the developing wing and leg. Thus, zones of cell death are not a part of amphibian limb morphogenesis. Analysis of the labeling index of the developing free-digited forelimb of Xenopus laevis reveals that during stage 52 the interdigital and digital labeling indexes are the same. The change in the ratio of interdigital labeling index to the digital labeling index in the forelimb suggests that during subsequent development the interdigital labeling index decreases while the digital labeling index is maintained. In comparison, the same analysis indicates that the interdigital labeling index of the webbed hindlimb increases when compared to the digital labeling index, which stays the same from early to late stages. It is proposed that free digits develop in Xenopus laevis forelimb as a result of a decrease in the proliferation rate of the interdigital region as compared to the digital region, which remains unchanged. Conversely, webbed digits develop in the hindlimb as a result of an interdigital rate at least equal to the digital rate.     

The distribution of 14C-imipramine in mice bearing Lewis lung carcinoma

The distribution of ¹⁴C-imipramine (10 mg/kg ip) and several of its metabolites in tumor, lung, liver, and kidney was investigated in male BDF₁ mice bearing Lewis lung carcinoma. In contrast to other tissues, the tumor exhibited a pronounced absorption phase of ¹⁴C-imipramine; peak concentrations were reached approximately 2 hours after administration. The lung accumulated more imipramine than other tissues at early time points; however, by 12 hours the lung had the lowest tissue/plasma ratio of ¹⁴C-imipramine-derived radioactivity of the tissues studied. In both lung and tumor, the metabolic profile of imipramine was similar, with unchanged imipramine predominating; 2-hydroxyimipramine was the principle metabolite in liver. The presence of Lewis lung tumor had minimal effects on the distribution and metabolism of imipramine.     

The plasma pharmacokinetics and tissue distribution of dimethyl sulfoxide in mice

We defined the plasma and tissue concentrations and pharmacokinetics of dimethyl sulfoxide (DMSO) in 22–34 g male Swiss Webster mice injected i.v. with 15% DMSO at a dosage of 1.5 mg per g. Concentrations of DMSO in alkalinized, perchloric acid extracts of tissue and plasma were determined by gas-liquid chromatography. Plasma concentrations of DMSO declined in a biexponential fashion that was well described by the equation C_t = 2.36 exp(?0.449 t) + 1.28 exp(?0.00768 t), indicating a t $\text{1}\text{2}$ (alpha) of 1.5 min and t $\text{1}\text{2}$ (beta) of 90 min. DMSO was rapidly and extensively distributed through tissues and was not concentrated in any particular tissue, although at 1 min after injection, the brain contained the lowest concentration of DMSO of any tissue studied. By 8 hr after injection, there was little DMSO in plasma or any tissue. Intravenous injection of DMSO produced neuro-muscular disturbances, hemolysis, and hemoglobinuria in all animals. Intravenous injection of DMSO produced little increase in plasma osmolality and did not produce any histological evidence of central nervous system of renal tubular damage.