THE SUBCELLULAR DISTRIBUTION OF [14C]GABA AND [3H]DOPAMINE IN THE RETINA

Abstract— Rabbit retinae were homogenized in isotonic sucrose and subjected to differential and density gradient centrifugation. Preliminary electron microscopic examination of some of the fractions indicated that in addition to the subcellular particles usually observed in brain homogenates, the photoreceptor cells gave rise to several characteristic fragments. These included fragmented outer limbs, aggregations of mitochondria from the inner segments, and photoreceptor terminals. Unlike the synaptosomes formed from the conventional type of synapses in the retina, these photoreceptor terminals appeared to sediment mainly in the low speed crude nuclear pellet (P1).
Retinae were incubated with low concentrations of [¹⁴C]GABA and/or [³H]dopamine prior to subcellular fractionation and in these experiments the P2 pellet was further fractionated on sucrose density gradients. Analysis of the radioactivity in the fractions showed that labelled GABA was accumulated by osmotically sensitive particles which had the sedimentation characteristics of synaptosomes. The panicles accumulating [³H]dopamine appeared to belong to a different, slightly lighter, population than those accumulating [¹⁴C]GABA. It is tentatively suggested that the particles accumulating labelled GABA were synaptosomes because the fractions containing these particles also possessed most of the GAD activity of the gradient. In contrast, GABA-T and MAO activity was found in the dense fractions of the gradients usually associated with mitochondria.
When retinae were incubated with a high concentration of labelled GABA a'lighter'population of particles seemed to accumulate the amino acid than when a low external GABA concentration was used. These results suggest that the high and low affinity uptake processes for GABA in the retina may have different cellular sites.     

ON THE RELATIONSHIP BETWEEN [3H]CHOLINE UPTAKE ACTIVATION AND [3H]ACETYLCHOLINE RELEASE

The depolarization-induced, calcium-dependent release of [³H]ACh from hippocampal synaptosomes was studied in a superfusion system. Release increased, with increasing depolarization. Barium and strontium effectively substituted for calcium during the depolarization, but magnesium inhibited the release. Releasable [³H]ACh is derived from the sodium-dependent component of the [³H]choline uptake which points out the physiologic importance of sodium-dependent choline transport. It is concluded that [³H]ACh release in this system has the same properties as neurotransmitter release in many other systems. Previous studies have shown that treatments which alter the activity of cholinergic neurons in vivo result in parallel changes in sodium-dependent choline uptake in vitro. When synaptosomes were utilized from animals treated to reduce cholinergic activity, there was a reduced release following the reduced uptake. Conversely, when synaptosomes were taken from animals treated to increase sodium-dependent choline uptake, there was an increase in the release. It is concluded that the changes in sodium-dependent choline uptake in vitro consequent to changes in neuronal activity in vivo result in parallel changes in releasable ACh. A comparison was made between the effect of a number of ions and agents on release and their effect on the in vitro, depolarization-induced activation of sodium-dependent choline uptake. Barium and strontium, ions which substitute for calcium in the release process, support the in vitro activation of uptake. Vinblastine and Bay a 1040, compounds which block release, prevented the in vitro activation of sodium-dependent choline uptake. However, magnesium blocked release in a dose-dependent manner, but did not block the activation of uptake in vitro. Rather, magnesium substituted for calcium and supported the activation of uptake in a dose-dependent fashion. It is concluded that acetylcholine release is not necessary for the activation of choline uptake.     

THE EFFECT OF CORDYCEPIN ON THE APPEARANCE OF [3H]RNA IN THE GOLDFISH OPTIC TECTUM FOLLOWING INTRAOCULAR INJECTION OF [3H]URIDINE

Abstract— Although biochemical and electron microscopic evidence has shown that RNA molecules may be found within axons, the origin of this RNA is not known. In order to determine if the RNA found in axons is synthesized in the nerve cell body and axonally transported, we have studied the effect of the RNA inhibitor cordycepin (3′-deoxyadenosine) on the retinal synthesis and axonal migration of radioactive RNA. Ten μg of cordycepin was injected into the right eye of 11 fish and 3 h later [³H]uridine was injected into the same eye. Twelve control fish were injected with [³H]uridine only and all fish were sacrificed 6 days later. Results of RNA extraction of retina and tecta showed that cordycepin decreased retinal RNA synthesis by approx 24%, while inhibiting the amount of [³H]RNA appearing in the contralateral tectum by 74%. Since the transport of RNA precursors was depressed by only 50%, (significantly different from the effect on RNA, P < 0.01) it seems unlikely that the action of cordycepin in decreasing tectal [³H]RNA levels was due solely to a decrease in the availability of labeled precursors for tectal RNA synthesis. For the purpose of blocking tectal RNA synthesis, 200 μg of cordycepin was injected intracranially several days after the intraocular injection of [³H]uridine. This route of cordycepin administration failed to significantly block the appearance of [³H]RNA in the tectum, suggesting that at least some of the [³H]RNA in the tectum was synthesized before arrival in the tectum itself. To be sure that cordycepin itself was not being transported, we injected cordycepin into the right eye of fish and 5 days later, injected fish intracranially with [³H]uridine. Autoradiograms were prepared and grains were counted over the fiber layers of left (experimental) and right (control) tecta. No significant difference was observed in the number of grains of left vs right tecta indicating that cordycepin itself is not axonally transported. These experiments support earlier findings from our laboratory which suggest that RNA may be axonally transported in goldfish optic fibers.     

THE EFFECT OF PHOSPHOLIPASE C, PHOSPHOLIPASE A2 AND NEURAMINIDASE ON THE UPTAKE OF [3H]NOREPINEPHRINE AND [3H]SEROTONIN

Abstract— The uptake of [³H]norepinephrine ([³H]NE) and [³H]serotonin ([³H]5-HT) by rat brain synaptosomes is reduced as a result of pretreatment of the synaptosomes with phospholipase C (EC 3.1.4.3) or phospholipase A₂ (EC 3.1.1.4). This effect is not due to inhibition of the Na⁺-K⁺-ATPase but rather is caused by hydrolysis of neuronal membrane phospholipids, mainly phosphatidylcholine, which seem to be important to the uptake.     

Nicotine Indirectly Inhibits [3H]Dopamine Uptake at Concentrations That Do Not Directly Promote [3H]Dopamine Release in Rat Striatum

The effects of both (-)- and (+)-nicotine isomers were examined on in vitro uptake and release of [3H]dopamine in rat striatum. Both isomers inhibited uptake of [3H]dopamine in chopped tissue at concentrations well below those necessary for promoting release of preloaded [3H]dopamine. (-)-Nicotine was more potent than (+)-nicotine both at inhibiting uptake and at promoting release. Unlike other dopamine uptake inhibitors, however, nicotine inhibited only 50% of the total uptake. In the presence of 1 nM nicotine, the residual [3H]dopamine uptake was less sensitive to inhibition by cocaine than uptake in the absence of nicotine. Nicotine did not compete against the binding of [3H]GBR 12935, a selective dopamine uptake inhibitor. The nicotinic receptor agonists carbachol and 1,1-dimethyl-4-phenylpiperazinium iodide also inhibited uptake, whereas the nicotinic antagonists chlorisondamine and mecamylamine blocked nicotine's effect. Thus, the effect of nicotine on dopamine uptake appears to be mediated by a receptor similar to the nicotinic acetylcholine receptor. These receptors do not seem to be on the terminals that are accumulating dopamine, however, since tetrodotoxin prevented the effect of nicotine on [3H]dopamine uptake and nicotine had no effect on uptake in a synaptosomal preparation.     

DEVELOPMENT OF THE UPTAKE AND STORAGE OF L-[3H]NOREPINEPHRINE IN THE RAT BRAIN

The uptake and storage of L-[³H]norepinephrine at various stages of development was examined in homogenates of rat brain. For the adult animal, active uptake accounted for 80 per cent of the total uptake. At 14 days of gestation, no active uptake was demonstrable At 18 days of gestation, saturable uptake of L-[³H]norepinephrine with a K_m of 3 × 10 ^?7m was first demonstrable; the K_m value did not vary during subsequent development. The V_max. of uptake increased five-fold between 18 days of gestation and 28 days postnatally, at which stage it was the same as the adult value. The development of saturable uptake paralleled but preceded the increase in endogenous norepinephrine. When homogenates were incubated with l -[³H]norepinephrine and subjected to centrifugation on linear sucrose gradients, there was a peak of tritium in the synaptosomal fractions; the magnitude of the peak increased with maturation of the brain. The increase in the peak of tritium paralleled the increase in particulate LDH activity and was distinct from the peak of MAO activity. Desipramine, a compound that blocks the initial uptake of norepinephrine, first exhibited inhibition of uptake at 19 days of gestation; the degree of inhibition did not vary during subsequent development. In contrast, reserpine, a compound which inhibits the intra-neuronal storage of norepinephrine, exhibited a progressive increase of inhibition with maturation of the brain at and subsequent to 19 days of gestation.     

5-Hydroxytryptamine Stimulates [3H]Dopamine Release from the Fish Retina

Abstract: Serotonin (5-hydroxytryptamine, 5-HT; 0.5 μM and above) stimulated the release of [³H]dopamine ([³H]DA) from particulate fractions of the carp ( Cyprinus carpio ) retina. The 5-HT effect was dose- and Ca²⁺-dependent, and was structurally specific. A similar response was not elicited by the other indoles (5,6-dihydroxytryptamine, 5,7-dihydroxytryptamine, 5-hydroxytrypto-phan, or 5-hydroxyindoleacetic acid) examined. An increase in [³H]DA release was elicited by addition of 5-HT agonists (5-methoxytryptamine, 5-methoxy- N,N- dimethyltryptamine, and tryptamine), but not antagonized by three 5-HT antagonists (metergolin, methysergide, and spiperone). Either DA alone or noradrenaline (0.5 m M ) produced a large increase in [³H]DA release from the particulate fractions, but this action was Ca²⁺-independent. Further, no significant release of [³H]γ-aminobutyric acid could be evoked by 5-HT (0.5 mM) under similar experimental conditions. Taken together, the present data suggest that 5-HT stimulates [³H]DA release from the fish retina through a specific receptor-mediated mechanism on dopaminergic terminals, but not through an exchange or nonspecific phenomenon.     

AN ADAPTATION OF THE PUSH-PULL CANNULA METHOD TO STUDY THE IN VIVO RELEASE OF [3H]DOPAMINE SYNTHESIZED FROM [3H]TYROSINE IN THE CAT CAUDATE NUCLEUS: EFFECTS OF VARIOUS PHYSICAL AND PHARMACOLOGICAL TREATMENTS

Abstract— The release of [³H]dopamine ([³H]DA) continuously synthesized from l-[3,5–³H]tyrosine from the caudate nucleus of the cat was estimated in halothane anaesthetized or‘encéphale isolé’animals. For this purpose, an improved superfusion cannula, avoiding tissue damage, was used. The best localization for the tip of the superfusion cannula was found first by determining the topographical distribution of endogenous DA within the caudate nucleus. A rostro-caudal heterogenous distribution of the transmitter was detected. In perfusion experiments, l-[3,5–³H]tyrosine was introduced continuously at a rate of 33μl/min. [³H]DA was the only catecholamine found in serial 15 min fractions as revealed by cochromatography. The spontaneous release of [³H]DA was greater in anaesthetized than in ‘encéphale isolé’ cats; it represented 150 and 100 times the blank value, respectively. Depolarization by K⁺ (30 mm) applied locally in the striatum or by electrical or mechanical stimulation of the substantia nigra caused a transitory increase in [³H]DA release. Conversely, a decrease in nerve activity induced by tetrodotoxin (5 × 10^?-⁷ m) or by electrocoagulation of the substantia nigra was associated with a decline in the amounts of [³H]DA in superfusates. A temporary reduction in [³H]DA release could also be obtained by a short-lasting cooling block of the substantia nigra. As expected, d-amphetamine (10^?-⁵ m) and benzotropine(10^?-⁷ m) added to the superfusing medium increased [³H]DA release. These pharmacological results, as well as the changes in [³H]DA release observed after various manipulations of the activity of dopaminergic neurones, confirms the validity and the high sensitivity of this approach.     

STUDIES OF THE UPTAKE AND RELEASE OF [3H]β-ALANINE BY FROG SPINAL SLICES

Abstract— [³H]β-Alanine was accumulated by frog spinal cord slices by two transport components with estimated K_m values of 31 M ('high-affinity') and 11 HIM ('low affinity') respectively. The high affinity uptake exhibited sodium ion and energy dependence, temperature sensitivity, had a very low V_max (10.4 nmol/g/min) compared to GABA and glycine, was competitively inhibited by GABA (K_t 2 M), and was significantly reduced by the presence of glycine and of taurine in the incubating medium.
When slices preloaded with [³H]β-alanine were superfused with medium containing depolarizing concentrations of potassium ions, there was a small, but consistent, increase in [³H]β-alanine efflux: 1.4 times prestimulation rates in 40 mM potassium. When the superfusate was altered by omission of calcium and addition of concentrations of magnesium (10 mm), manganese (1 mM), and cobalt (1 mM) ions sufficient to block reflex transmission in the isolated in vitro frog cord, the potassium-evoked release was not blocked. Release was decreased by lanthanum ions (1 mM). Release of [³H]GABA and [³H]glycine in parallel experiments was inhibited by magnesium, manganese, cobalt and lanthanum. Veratridine significantly increased the release of [³H]GABA and [³H]glycine but not of [³H]β-alanine.
These observations demonstrate the non-specificity of β-alanine uptake and the unconventional nature of the calcium-dependence of β-alanine release and therefore do not lend support to the hypothesis that β-alanine functions as a neurotransmitter in frog spinal cord.     

CATECHOLAMINE METABOLISM IN THE DOG: COMPARISON OF INTRAVENOUSLY AND INTRAVENTRICULARLY ADMINISTERED [14C]DOPAMINE AND [3H]NOREPINEPHRINE

—The urinary excretion of labelled metabolites was measured in dogs which had been injected intravenously or intraventricularly with [³H]norepinephrine or [¹⁴C]dopamine. [³H]Norepinephrine injected by either route produced more labelled 3-methoxy-4-hydroxy-phenylglycol than 3-methoxy-4-hydroxymandelic acid, as did [¹⁴C]dopamine after intravenous administration. In contrast, following the intraventricular injection of [¹⁴C]dopamine, more [¹⁴C]3-methoxy-4-hydroxymandelic acid was formed than [¹⁴C]3-methoxy-4-hydroxyphenylglycol. These observations suggest that the metabolism of exogenously-administered and endogenously-formed norepinephrine may proceed through different routes and that the predominant metabolite of norepinephrine in canine brain may be 3-methoxy-4-hydroxymandelic acid rather than 3-methoxy-4-hydroxyphenylglycol.     

FACTORS AFFECTING THE SPONTANEOUS RELEASE OF [3H] γ-AMINOBUTYRIC ACID FROM THE FROG RETINA IN VITRO

Abstract— The spontaneous efflux of [³H]GABA and its metabolites from the frog retina has been studied. The efflux of radioactivity was multiphasic in the presence or absence of amino-oxyacetic acid (AOAA), an inhibitor of GABA metabolism, and was not affected by light or dark adaptation.
Strong retention of radioactivity was evident in the presence of AOAA, about 90% of the label remaining in the tissue after 4 h superfusion. Under these conditions, increases in the rate of release of radioactivity were evoked by electrical stimulation, 40 m m -potassium. unlabelled GABA (5 m m ), ouabain (5 × 10⁻⁵ m ) and the absence of calcium. The amount of [³H]GABA released by electrical stimulation was not markedly calcium dependent, whereas the response to 40 m m -potassium was reduced by 96% in the absence of calcium.     

THE SELECTIVE NEURONAL UPTAKE AND RELEASE OF [3H]DL-2,4-DIAMINOBUTYRIC ACID BY RAT CEREBRAL CORTEX

Abstract— At 25°C the accumulation of [³H] dl -2,4-diaminobutyric acid (DABA) into small rat cortical slices was linear with time and a tissue: medium ratio of 35:1 was attained after 60 min. At 37°C the uptake was no longer linear and the tissue: medium ratio at 60 min was 66:1. Uptake was unaffected by the addition of 10 μ m -AOAA and dependent on the presence of Na⁺ in the incubation media. The uptake was shown to have a high affinity component with a K _m of 20.7 μ m and a V _max of 28.6 nmol/g/min. IC50's for the inhibition of [³H]DABA uptake by dl -DABA, l -DABA and GABA were 80, 40 and 17 μ m respectively. Two m m β -alanine, however, caused less than 13% inhibition of [³H]DABA uptake. Electron microscopic autoradiographs showed the [³H]DABA to be accumulated by 22% of the identifiable nerve terminals and, after 14 days exposure, the density of silver grains over nerve terminals was 36–38 times higher than that over the rest of the electron micrograph. On the other hand, [³H]DABA was not taken up into rat sensory ganglia and light level autoradiography showed the small amount of [³H]DABA accumulated by the ganglia to be evenly distributed throughout the tissue. Both electrical stimulation for 30 s and exposure of the tissue to a medium containing 47 m m -K⁺ for 2 min caused a marked increase in the efflux of [³H]DABA from the tissue. Both these effects were abolished by a reduction in Ca²⁺ concentration and an increase in the Mg²⁺ concentration of the superfusing medium. These results suggest that l -DABA acts as a 'false transmitter' for the neuronal uptake, storage and release of GABA.     

Lack of Selectivity Between the Uptake of [3H] Adrenaline and [3H]Noradrenaline into Rat Hypothalamic Slices

The uptake of [3H]adrenaline and [3H]noradrenaline into rat hypothalamic slices was compared for determination of whether adrenaline uptake was independent of uptake into noradrenergic neurones. Kinetic analysis revealed a similar high-affinity uptake process for both adrenaline and noradrenaline, with Km and Vmax values within similar ranges. These uptakes were inhibited by desipramine and maprotiline in a dose-dependent manner, but the selective dopamine and 5-hydroxytryptamine uptake inhibitors benztropine and fluoxetine, respectively, were without effect. Competition for uptake sites by unlabelled adrenaline with [3H]adrenaline and [3H]-noradrenaline and by unlabelled noradrenaline with [3H]-adrenaline and [3H]noradrenaline was very similar. Lesioning of the major adrenaline-containing cell group (C1 cell group) decreased the hypothalamic adrenaline concentration but had no effect on hypothalamic [3H]adrenaline or [3H]noradrenaline uptake. The results suggest that exogenous adrenaline is largely taken up by high-affinity sites on noradrenergic nerve terminals.     

THE UPTAKE OF [3H]GABA BY SLICES OF RAT CEREBRAL CORTEX

—A rapid accumulation of [³H]GABA occurs in slices of rat cerebral cortex incubated at 25° or 37° in a medium containing [³H]GABA. Tissue medium ratios of almost 100:1 are attained after a 60 min incubation at 25°. At the same temperature no labelled metabolites of GABA were found in the tissue or the medium. The process responsible for [³H]GABA uptake has many of the properties of an active transport mechanism: it is temperature sensitive, requires the presence of sodium ions in the external medium, is inhibited by dinitrophenol and ouabain, and shows saturation kinetics. The estimated K_m value for GABA is 2·2 × 10^?5m , and V_max is 0·115 μmoles/min/g cortex. There is only negligible efflux of the accumulated [³H]GABA when cortical slices are exposed to a GABA-free medium. [³H]GABA uptake was not affected by the presence of large molar excesses of glycine, l -glutamic acid, l -aspartic acid, or β-aminobutyrate, but was inhibited in the presence of l -alanine, l -histidine, β-hydroxy-GABA and β-guanidinopropionate. It is suggested that the GABA uptake system may represent a possible mechanism for the inactivation of GABA or some related substance at inhibitory synapses in the cortex.     

THE EFFECT OF DELTA-AMINOLAEVULINIC ACID ON THE UPTAKE AND EFFLUX OF [3H]GABA IN RAT BRAIN SYNAPTOSOMES

§-Aminolaevulinic acid (§-ALA) is an omega amino acid which can be considered as an analogue of γ-aminobutyric acid (GABA). We have examined the effect of §-ALA on [³H]GABA uptake and release in the synaptosome fraction of rat cerebral cortex and report: (1) High concentrations of §-ALA (0.75-5 mM) stimulated [³H]GABA release very markedly, the stimulation with 1mM and 5mM-§-ALA exceeding the maximum obtainable with unlabelled GABA; (2) Low concentrations of §-ALA (0.1-0.5 mM) produced little stimulation of [³H]GABA efflux, less than that produced by similar concentrations of unlabelled GABA; (3) 0.1 mM-§-ALA reduced the stimulation of [³H]GABA efflux elicited by 55 mM-K⁺ and the combination of 1 mM-§-ALA and 55mM-K⁺ produced a lower stimulation of efflux than 1 mM-§-ALA alone; (4) §-ALA inhibits [³H]GABA uptake in a linearly competitive fashion and inhibition is maximal at 0.5 mM-§-ALA. These results are discussed in relation to the neuronal high affinity GABA transport mechanism and inhibition of the synaptosomal Na⁺ and K⁺ -dependent ATPase. It is also postulated that §-ALA increases the chloride conductance of the synaptosomal membrane, possibly by acting on presynaptic GABA receptors.     

EFFECT OF EXTRINSIC DENERVATION ON ENDOGENOUS NORADRENALINE AND [3H]NORADRENALINE UPTAKE IN THE GUINEA-PIG COLON

—The concentration of noradrenaline was studied in the proximal colon of the guinea-pig, where intrinsic adrenergic neurons are present in the myenteric plexus. The noradrenaline content is higher than in the myenteric plexus of other parts of the alimentary tract. After extrinsic denervation of the colon, about 25% of the original content of noradrenaline remains in the myenteric plexus, and this is considered to be the amount due to the intrinsic adrenergic neurons; also a substantial noradrenaline uptake activity is still detectable. On the other hand, in the part of the wall formed by circular muscle-submucous plexus-submucosa-mucosa, which has control values close to those of the ileum, extrinsic denervation causes a nearly complete depletion of noradrenaline. This is considered as evidence that the intrinsic neurons do not project to the circular musculature, or the submucosa or mucosa.     

POTASSIUM-INDUCED RELEASE OF [3H]GABA AND OF [3H]NORADRENALINE FROM NORMAL AND RESERPINIZED RAT BRAIN CORTEX SLICES. DIFFERENCES IN CALCIUMDEPENDENCY, AND IN SENSITIVITY TO POTASSIUM IONS

The release of [³H]GABA induced by elevated extracellular potassium (K)_o, from thin rat brain cortex slices, has been compared with that of [³H]noradrenaline ([³H]NA), released by the same procedures, both from normal slices, and from slices pre-treated with reserpine and nialamide, [³H]NA being predominantly a vesicular component in the former situation, and a soluble substance in the latter one. 46 mM-(K)_o released considerably more [³H]NA from normal than from drug-treated slices, while the release of GABA was about two thirds of the latter. When 4min ‘pulses’ of increasing concentrations of potassium were applied, it was observed that the release of GABA and of [³H]NA from drug-treated slices increased in proportion to (K)_o, up to 36-46 mM and then declined considerably with higher (K)_o. The dependency of potassium-induced release on the concentration of calcium in the medium, indicated that release of [³H]NA from normal slices was proportional to calcium up to 1.5-2 mM, while that of [³H]NA from drug-treated slices increased up to 0.5 mM-Calcium, and then declined with higher concentrations. GABA release also increased up to 0.5 mM-calcium, but no further changes were observed at higher concentrations. The calcium antagonist D-600 inhibited high (K)_o-induced release of [³H]NA from normal slices to a greater extent than that of [³H]GABA or of [³H]NA from drug-treated slices. These results, in which elevated (K)_o-induced release of [³H]GABA resembles considerably that of soluble NA, but differs from that of NA present in synaptic vesicles, suggest that release of [³H]GABA also occurs from the soluble cytoplasmic compartment, and that the partial calcium requirement that is found is unrelated to that of transmitter secretion. These findings are also a further indication of the lack of specificity of elevated (K)_o as a stimulus for inducing transmitter secretions.     

DIFFERENT LABELLING PATTERNS IN MOUSE LYMPHOID TISSUES WITH [3H]DEOXYCYTIDINE AND [3H]THYMIDINE

The percentages of labelled lymphocytes in smear preparations of mouse thymus were higher than those in similar preparations of mesenteric lymph nodes with either generally labelled tritiated deoxycytidine, [³H]CdR, or tritiated thymidine, [³H]TdR. Lymphocytes in the thymus cortex and in germinal centres of mesenteric lymph nodes were intensely labelled with [³H]CdR, whereas with [³H]TdR lymphocytes in the peripheral region of thymus and medullary cords of mesenteric lymph nodes were heavily labelled. The majority of lymphocytes in thymic cortex and germinal centres of mesenteric lymph nodes were labelled weakly with [³H]TdR. Thus, labelling patterns with [³H]CdR differed from those with [³H]TdR in lymphoid tissues of the mouse. Mouse lymphocytes can utilize [³H]CdR as a precursor molecule for cytosine and thymine in DNA. The ratio of radioactivity of thymine to that of cytosine was measured biochemically in DNA extracted from lymphocytes labelled with [³H]CdR. This radioactivity ratio in thymus was higher than that in mesenteric lymph nodes. These results suggest that the metabolic activities of utilizing CdR for DNA synthesis differ within lymphocyte populations in various lymphoid tissues in the mouse.