Selective suppression by auto-anti-idiotypic antibody of B-cell idiotype repertoires generated after stimulation with the same hapten on T-dependent and T-independent carriers

In the present study, we investigated whether auto-anti-idiotypic antibody in the immune sera from old mice could recognize antitrinitrophenyl (TNP) plaque-forming cells (PFC) generated after stimulation with the T-dependent and T-independent forms of the hapten, TNP. Young and old C57BL/6J male mice were immunized with a variety of T-dependent (TNP-bovine gamma-globulin, TNP-BGG; TNP-keyhole Limpet hemocyanin, TNP-KLH; ovalbumin, OVA; bovine serum albumin, BSA; BGG) and T-independent (TNP-Brucella abortus, TNP-BA; TBP-Ficoll; TNP-polyacrylamide beads, TNP-PAA) antigens either in complete Freund's adjuvant (CFA) or in soluble form. Splenic anti-TNP or antiprotein PFC responses were assayed for anti-idiotype-blocked, hapten- or protein-augmentable IgM, IgG and IgA PFC, 1-2 weeks after immunization. It was found that 8-month-old mice produced significantly a higher percentage of hapten augmentable (26-42%) IgM PFC response to T-independent antigens as compared with the 2-month-old mice (3-6% augmentation). Similarly, old mice produced a significantly higher percentage of hapten or protein augmentable (25-129%) IgG PFC response to T-dependent antigens as compared with the 2-month-old group (2-6% augmentation). The data support the view that age-related regulation of auto-anti-idiotypic antibody is a general phenomenon for immune responses to T-dependent and T-independent antigens. Hapten-reversible inhibition of plaque formation was used to determine whether anti-idiotypic antibody containing antisera from old mice could inhibit B-cell idiotype repertoires generated after stimulation with the same hapten, TNP, on T-dependent and T-independent carriers. Pools of immune sera from 8-month-old mice primed with T-dependent TNP-BGG or TNP-KLH antigens but not with T-independent TNP-PAA or TNP-BA antigens, or with the proteins OVA, BSA, or BGG selectively inhibited IgM, IgG, and IgA anti-TNP PFC from 2-month-old mice that were previously primed with either TNP-BGG or TNP-KLH. In contrast, immune sera from old mice primed with TNP on either T-dependent or T-independent carriers inhibited anti-TNP PFC from mice primed with T-independent TNP-PAA or TNP-BA antigens. Immune sera from old mice primed with OVA or BSA only inhibited the respective antiprotein PFC. The immune sera from young mice did not show any appreciable inhibition of PFC generated after stimulation by any of the antigens studied.(ABSTRACT TRUNCATED AT 400 WORDS)     

Nonspecific Elicitation of Antibody-Forming Cells in the Mouse Spleen by Bacterial Lipopolysaccharide

Mechanisms of nonspecific elicitation of anti-sheep erythrocyte (SRBC) hemolytic antibody plaque-forming cells (PFC) in mouse spleens with an injection of bacterial endotoxin (lipopolysaccharide (LPS)) were studied in comparison with the genesis of naturally occurring ‘background’ PFC in normal mouse spleens and of rapidly arising PFC in mouse spleens after immunization with SRBC. The cytokinetic pattern of anti-SRBC PFC response after an injection of LPS was quite different from that of the response elicited after immunization with SRBC. In addition, even though LPS nonspecifically elicited anti-SRBC PFC response in mice, LPS could not confer any immunological memory on mouse immunocytes for a ‘secondary-type’ anti-SRBC PFC response to restimulation with LPS or SRBC. The administration of rabbit anti-mouse thymocyte immunoglobulin or anti-SRBC antiserum in mice markedly suppressed the PFC response after immunization with SRBC, but did not do so after stimulation with LPS. Neonatally thymectomized mice could still respond to stimulation with LPS, producing anti-SRBC PFC in their spleens. Injections of actinomycin D or cyclophosphamide into mice resulted in obvious reductions of the PFC responses elicited by either LPS or SRBC. However, injections of these immunosuppressive antisera or drugs did not affect the number of anti-SRBC PFC in normal mouse spleens. These results suggest that the geneses of anti-SRBC PFC developed under different conditions, i.e., background PFC, LPS-stimulated PFC, and antigen-stimulated PFC, are quite different from each other, and that the nonspecific elicitation of anti-SRBC PFC by LPS does not require the helper function of T lymphocytes. No obvious difference, however, was observed in the time of ontogenic maturation among these three different anti-SRBC PFC in the mouse spleens judging from when they were first manifested after birth.     

重复经颅磁刺激对慢性精神分裂症患者认知功能影响的初步研究

目的:探讨重复经颅磁刺激(rTMS)对慢性精神分裂症患者认知功能的影响。方法:100例慢性精神分裂症患者,按照随机数字表法分为rTMS真刺激组和伪刺激组,每组各50例。采用阳性与阴性症状量表(PANSS)及副反应量表(TESS)评估患者治疗前后精神症状及不良反应;采用威斯康星卡片分类测验(WCST)及可重复的成套神经心理状态测量(RBANS)评价患者治疗前后认知功能。结果:治疗后,rTMS真刺激组PANSS总分、阳性量表分、阴性量表分、一般精神病理量表分均明显降低(P0.05),且均明显低于伪刺激组(P0.05),两组治疗前后及组间TESS评分无明显差异(P0.05);rTMS真刺激组WCST中的概念化水平百分数明显高于伪刺激组(P0.05),总时间及错误思考时间短于伪刺激组(P0.05);rTMS真刺激组RBANS中视觉广度与延迟记忆成绩明显提高(P0.05),且视觉广度明显高于伪刺激组(P0.05);rTMS真刺激组2例患者首次治疗后出现轻度不适症状,随访3个月所有患者均无不适主诉。结论:rTMS治疗对慢性精神分裂症患者的部分认知功能有一定的改善作用,且安全性较高,值得进一步研究。     

Comparison between touchscreen operant chambers and water maze to detect early prefrontal dysfunction in mice

The relative lack of sensitive and clinically valid tests of rodent behavior might be one of the reasons for the limited success of the clinical translation of preclinical Alzheimer's disease (AD) research findings. There is a general interest in innovative behavioral methodology, and protocols have been proposed for touchscreen operant chambers that might be superior to existing cognitive assessment methods. We assessed and analyzed touchscreen performance in several novel ways to examine the possible occurrence of early signs of prefrontal (PFC) functional decline in the APP/PS1 mouse model of AD. Touchscreen learning performance was compared between APP/PS1-21 mice and wildtype littermates on a C57BL/6J background at 3, 6 and 12 months of age in parallel to the assessment of spatial learning, memory and cognitive flexibility in the Morris water maze (MWM). We found that older mice generally needed more training sessions to complete the touchscreen protocol than younger ones. Older mice also displayed defects in MWM working memory performance, but touchscreen protocols detected functional changes beginning at 3 months of age. Histological changes in PFC of APP/PS1 mice indeed occurred as early as 3 months. Our results suggest that touchscreen operant protocols are more sensitive to PFC dysfunction, which is of relevance to the use of these tasks and devices in preclinical AD research and experimental pharmacology.     

FGF21 Attenuates High-Fat Diet-Induced Cognitive Impairment via Metabolic Regulation and Anti-inflammation of Obese Mice

Accumulating studies suggest that overnutrition-associated obesity may lead to development of type 2 diabetes mellitus and metabolic syndromes (MetS). MetS and its components are important risk factors of mild cognitive impairment, age-related cognitive decline, vascular dementia, and Alzheimer’s disease. It has been recently proposed that development of a disease-course modification strategy toward early and effective risk factor management would be clinically significant in reducing the risk of metabolic disorder-initiated cognitive decline. In the present study, we propose that fibroblast growth factor 21 (FGF21) is a novel candidate for the disease-course modification approach. Using a high-fat diet (HFD) consumption-induced obese mouse model, we tested our hypothesis that recombinant human FGF21 (rFGF21) administration is effective for improving obesity-induced cognitive dysfunction and anxiety-like behavior, by its multiple metabolic modulation and anti-pro-inflammation actions. Our experimental findings support our hypothesis that rFGF21 is protective to HFD-induced cognitive impairment, at least in part by metabolic regulation in glucose tolerance impairment, insulin resistance, and hyperlipidemia; potent systemic pro-inflammation inhibition; and improvement of hippocampal dysfunction, particularly by inhibiting pro-neuroinflammation and neurogenesis deficit. This study suggests that FGF21 might be a novel molecular target of the disease-course-modifying strategy for early intervention of MstS-associated cognitive decline.     

Stimulation of prefrontal cortex at physiologically relevant frequencies inhibits dopamine release in the nucleus accumbens

The prefrontal cortex (PFC) is thought to provide an excitatory influence on the output of mesoaccumbens dopamine neurons. The evidence for this influence primarily arises from findings in the rat that chemical or high-intensity and high-frequency (60-200 Hz) electrical stimulations of PFC increase burst activity of midbrain dopamine neurons, and augment terminal release of dopamine in the nucleus accumbens. However, PFC neurons in animals that are engaged in PFC-dependent cognitive tasks increase their firing frequency from a baseline of 1-3 Hz to 7-10 Hz, suggesting that the commonly used high-frequency stimulation parameters of the PFC may not be relevant to the behavioral states that are associated with PFC activation. We investigated the influence of PFC activation at lower physiologically relevant frequencies on the release of dopamine in the nucleus accumbens. Using rapid (5-min) microdialysis measures of extracellular dopamine in the nucleus accumbens, we found that although PFC stimulation at 60 Hz produces the expected increases in accumbal dopamine release, the same amplitude of PFC stimulation at 10 Hz significantly decreased these levels. These results indicate that activation of PFC, at frequencies that are associated with increased cognitive demand on this region, inhibits the mesoaccumbens dopamine system.     

Modulation of learning and hippocampal, neuronal plasticity by repetitive transcranial magnetic stimulation (rTMS)

The influence of high-frequency repetitive transcranial magnetic stimulation (rTMS) on learning process in mice and on neuronal excitability of the hippocampal tissue obtained from stimulated animals were investigated. While the stimulation with rTMS at higher frequency (15 Hz) improved animals' performance in novel object recognition test (NOR), lower frequency (1 and 8 Hz) impaired the memory. The effect was observed when evaluated immediately after rTMS exposure and declined with time. In parallel to the results of behavioral test, there was a significant enhancement of the synaptic efficiency expressed as of the long-term potentiation (LTP) recorded from hippocampal slices prepared from the animals exposed to 15 Hz rTMS. The stimulation with 1 and 8 Hz had no influence on the magnitude of LTP. Our results demonstrate that rTMS modifies mechanisms involved in memory formation. The effects of rTMS in vivo are preserved and expressed in the hippocampus tested in vitro.     

Brain lipid changes after repetitive transcranial magnetic stimulation: potential links to therapeutic effects?

Repetitive transcranial magnetic stimulation (rTMS) is increasingly used in the management of neurologic disorders such as depression and chronic pain, but little is known about how it could affect brain lipids, which play important roles in membrane structure and cellular functions. The present study was carried out to examine the effects of rTMS on brain lipids at the individual molecular species level using the novel technique of lipidomics. Rats were subjected to high frequency (15 Hz) stimulation of the left hemisphere with different intensities and pulses of rTMS. The prefrontal cortex, hippocampus and striatum were harvested 1 week after rTMS and lipid profiles analyzed by tandem mass spectrometry. rTMS resulted in changes mainly in the prefrontal cortex. There were significant alterations in plasmalogen phosphatidylethanolamines, phosphatidylcholines, and increases in sulfated galactosylceramides or sulfatides. Plasmalogen species with long chain polyunsaturated fatty acids (PUFAs) showed decrease in abundance together with corresponding increase in lysophospholipid species suggesting endogenous release of long chain fatty acids such as docosahexaenoic acid (DHA) in brain tissue. The hippocampus showed no significant changes, whilst changes in the striatum were often opposite to that of the prefrontal cortex. It is postulated that changes in brain lipids may underlie some of the clinical effects of rTMS.     

The effects of age on the immune response to type III pneumococcal polysaccharide (SIII) and bacterial lipopolysaccharide (LPS) in BALB/c, SJL/J, and C3H mice.

Type III pneumococcal polysaccharide (SIII) and bacterial lipopolysaccharide (LPS) were used to evaluate B cell and T cell regulatory functions in BALB/c, SJL/J, and C3H mice of various ages. It was found that the BALB/c and C3H mice could mount high level plaque-forming cell (PFC) responses to SIII at various ages through 110 weeks whereas the levels of the SJL/J PFC responses had begun to decline by the age of 42 weeks through the age of 80 weeks. BALB/c mice were also capable of producing strong PFC responses to LPS at various ages through 110 weeks whereas the comparable SJL/J PFC responses to LPS had declined by 80 weeks of age. By using anti-lymphocyte serum (ALS) and low-dose paralysis to SIII, it was shown that suppressor T cell activity was apparently greater in young BALB/c mice than in older BALB/c mice. It was also found that paralysis to SIII in BALB/c mice was easier to achieve at an early age. SJL/J mice were found to have the necessary B cell activity to respond to SIII through 80 weeks of age and the PFC responses could be greatly enhanced by ALS. Implications of the roles of regulatory T cells in aging are discussed.     

Studies of immune responses in mice prone to autoimmune disorders. II. Decreased down-regulation by auto-anti-idiotype antibody in autoimmune-prone mice

Three lines of evidence are presented which suggest that autoimmune-prone mice are deficient in the production of auto-anti-idiotype antibody during their immune response to trinitrophenylated Ficoll (TNP-F). NZB, MRL lpr/lpr and older BXSB male mice have no hapten-augmentable plaque-forming cells (PFC). Hapten-augmentable PFC have been previously shown to be cells whose secretion of antibody has been inhibited by the binding of auto-anti-idiotype antibody to cell surface idiotype. Sera from TNP-F immunized NZB mice lack PFC inhibiting activity (anti-idiotype antibody). Spleen cells from TNP-F immune NZB mice fail to transfer anti-idiotype antibody-mediated suppression to naive mice as do spleen cells from immune non-autoimmune-prone mice. Taken together these data suggest that autoimmune-prone mice are deficient in auto-anti-idiotype antibody-mediated downward regulation of their immune responses. It was further shown that the immune response of NZB mice to TNP-F shows a slower decline in splenic PFC and a greater heterogeneity of PFC affinity than do the responses of non-autoimmune-prone strains. Since athymic (nude) mice, which were previously shown to be defective in the production of auto-anti-idiotype antibody, also show a slower decline in splenic PFC and an increased heterogeneity of PFC affinity, it is suggested that these peculiarities of the immune responses of autoimmune-prone and athymic mice are also the consequences of the lack of auto-anti-idiotype antibody-mediated down-regulation.     

Long-term dietary supplementation with the green tea cultivar Sunrouge prevents age-related cognitive decline in the senescence-accelerated mouse Prone8

A majority of the potential health benefits of green tea, including the potential to prevent cognitive decline, have been attributed to epigallocatechin gallate (EGCG). Sunrouge is a green tea cultivar that contains EGCG and several other bioactive components such as quercetin, myricetin, cyanidin and delphinidin. We compared the effects of Sunrouge and Yabukita, the most popular Japanese green tea cultivar, on cognitive function in the senescence-accelerated mouse Prone8. These mice were fed an experimental diet containing Sunrouge extract (SRE) or Yabukita extract (YBE). SRE feeding significantly prevented cognitive decline, whereas YBE feeding had little effect. Moreover, SRE feeding prevented elevation of the amyloid-β42 level while improving the gene expression of neprilysin and decreasing beta-site APP-cleaving enzyme 1 in the brain. These preventive effects of SRE against cognitive decline were attributed to the characteristic composition of Sunrouge and strongly suggest that consumption of this cultivar could protect against age-related cognitive decline.     

The enhancement of the immune response by pain stimulation in mice. I. The enhancement effect on PFC production via sympathetic nervous system in vivo and in vitro

Effects of catecholamines and osmotical and physical stimuli on the induction of anti-sheep red blood cells (SRBC) plaque-forming cells (PFC) were investigated in (C57BL/6 X BALB/c)F1 mice in vivo and in vitro. The anti-SRBC PFC from mice immunized with 5 X 10(7) SRBC was markedly increased by daily s.c. injections of epinephrine. The enhancement of PFC by epinephrine was completely blocked by preadministration with propranolol and hexamethonium, but not with phentolamine. The PFC was increased by osmotic and physical stimuli given once a day for 4 days after immunization with SRBC. The enhancement of PFC by these stimuli was completely blocked by preadministration with propranolol and hexamethonium. The enhancement of PFC by physical stimuli was observed in nonimmunized mice when spleen cells from stimulated mice were cultured with SRBC in vitro. In normal mice, the enhancement of PFC was observed 2 hr after one physical stimulation. However, spleen cells from mice given two physical stimuli did not show the enhancement of PFC after treatment with anti-Thy-1.2 antibody and complement, nor after removal of nonadherent cells. Next, the serum obtained from mice 30 to 60 min after a physical stimulation enhanced PFC of normal mice spleen cells in vitro, but the enhancement was abolished by the addition of propranolol. The enhancement of anti-SRBC PFC by s.c. injection of epinephrine suggested that the autonomic nervous system, especially the sympathetic nervous system, was activated by a local stimulus effect of the injection. This enhancement of anti-SRBC PFC appear to be due to the activation of antigen non-specific helper T lymphocytes by the beta-actin of endogenous catecholamines from the adrenal gland.     

The influence of low-frequency left prefrontal repetitive transcranial magnetic stimulation on memory for words but not for faces

Brain imaging studies suggest localization of verbal working memory in the left dorsolateral prefrontal cortex (DLPFC) while face processing and memory is localized in the inferior temporal cortex and other brain areas. The goal of this study was to assess the effect of left DLPFC low-frequency repetitive transcranial magnetic stimulation (rTMS) on verbal recall and face recognition. The study revealed a significant decrease of free recall in word encoding under rTMS (110% of motor threshold, 0.9 Hz) in comparison with sham stimulation (p=0.03), while no significant difference was found with facial memory tests. Our findings support the essential role of the left DLPFC in word but not facial memory and confirm the content specific arrangement of cortical areas involved in semantic memory. As a non-invasive tool, rTMS is useful for cognitive brain mapping and the functional localization of the category specific memory system.     

LPS-induced autoantibody response. I. Ontogenic development of PFC response to bromelain-treated syngeneic erythrocytes

Normal adult mice have been shown to contain a large number of cells secreting antibodies against bromelain-treated syngeneic erythrocytes (Br.MRBC) and the numbers remarkably increase by the stimulation with LPS. In this report development of the anti-Br.MRBC response during ontogeny was examined and it was shown that on the injection of LPS suckling mice responded little to generate splenic plaque-forming cells (PFC) against Br.MRBC in vivo and in vitro. The responsiveness of suckling mice to produce anti-Br.MRBC was shown to be less developed than the anti-TNP response or the mitotic response to LPS. The low responsiveness of suckling mice was analyzed in terms of suppressor activity in the spleen cell population, proliferative capacities of the precursors of anti-Br.MRBC PFC, and their frequencies in the spleen. In the coculture experiment of suckling and adult spleen cells or culture of anti-brain-associated Thy 1-treated, macrophage-depleted spleen cell population, no evidence was obtained to show that suckling spleen cells contained suppressor cells. Kinetic profiles studied in vitro showed that anti-Br.MRBC PFC in the suckling spleen did not increase during the culture as those in the adult spleen. Studies on the precursor frequencies revealed that spleen cells of 15-day-old mice contained precursors of anti-Br.MRBC PFC amounting to 20.5% of the adult precursors whereas the PFC response in vitro by the former was only 4% of the latter. From these experimental data, it was concluded that the low responsiveness of suckling mice was partly due to the low frequency of the precursors in the spleen and, in addition, to the defective nature of the precursors in proliferating to differentiate into PFC.     

The Effect of 10 Hz Repetitive Transcranial Magnetic Stimulation of Posterior Parietal Cortex on Visual Attention

Repetitive transcranial magnetic stimulation (rTMS) of the posterior parietal cortex (PPC) at frequencies lower than 5 Hz transiently inhibits the stimulated area. In healthy participants, such a protocol can induce a transient attentional bias to the visual hemifield ipsilateral to the stimulated hemisphere. This bias might be due to a relatively less active stimulated hemisphere and a relatively more active unstimulated hemisphere. In a previous study, Jin and Hilgetag (2008) tried to switch the attention bias from the hemifield ipsilateral to the hemifield contralateral to the stimulated hemisphere by applying high frequency rTMS. High frequency rTMS has been shown to excite, rather than inhibit, the stimulated brain area. However, the bias to the ipsilateral hemifield was still present. The participants’ performance decreased when stimuli were presented in the hemifield contralateral to the stimulation site. In the present study we tested if this unexpected result was related to the fact that participants were passively resting during stimulation rather than performing a task. Using a fully crossed factorial design, we compared the effects of high frequency rTMS applied during a visual detection task and high frequency rTMS during passive rest on the subsequent offline performance in the same detection task. Our results were mixed. After sham stimulation, performance was better after rest than after task. After active 10 Hz rTMS, participants’ performance was overall better after task than after rest. However, this effect did not reach statistical significance. The comparison of performance after rTMS with task and performance after sham stimulation with task showed that 10 Hz stimulation significantly improved performance in the whole visual field. Thus, although we found a trend to better performance after rTMS with task than after rTMS during rest, we could not reject the hypothesis that high frequency rTMS with task and high frequency rTMS during rest equally affect performance.     

Spatial Cognition in Adult and Aged Mice Exposed to High-Fat Diet

Aging is associated with a decline in multiple aspects of cognitive function, with spatial cognition being particularly sensitive to age-related decline. Environmental stressors, such as high-fat diet (HFD) exposure, that produce a diabetic phenotype and metabolic dysfunction may indirectly lead to exacerbated brain aging and promote the development of cognitive deficits. The present work investigated whether exposure to HFD exacerbates age-related cognitive deficits in adult versus aged mice. Adult (5 months old) and aged (15 months old) mice were exposed to control diet or HFD for three months prior to, and throughout, behavioral testing. Anxiety-like behavior in the light-dark box test, discrimination learning and memory in the novel object/place recognition tests, and spatial learning and memory in the Barnes maze test were assessed. HFD resulted in significant gains in body weight and fat mass content with adult mice gaining significantly more weight and adipose tissue due to HFD than aged mice. Weight gain was attributed to food calories sourced from fat, but not total calorie intake. HFD increased fasting insulin levels in all mice, but adult mice showed a greater increase relative to aged mice. Behaviorally, HFD increased anxiety-like behavior in adult but not aged mice without significantly affecting spatial cognition. In contrast, aged mice fed either control or HFD diet displayed deficits in novel place discrimination and spatial learning. Our results suggest that adult mice are more susceptible to the physiological and anxiety-like effects of HFD consumption than aged mice, while aged mice displayed deficits in spatial cognition regardless of dietary influence. We conclude that although HFD induces systemic metabolic dysfunction in both adult and aged mice, overall cognitive function was not adversely affected under the current experimental conditions.     

Relation between Enhanced Antibody Responses Elicited by Adjuvant Injection and Those Elicited by Secondary Antigenic Stimulation

An attempt was made to determine if there is any common mechanism in the enhanced antibody response caused either by injection of adjuvant, such as bacterial endotoxin (LPS) and complexed polynucleotides, or by secondary antigenic stimulation. LPS inoculated in mice 4 days before injection of sheep red blood cells (SRBC) and polyA:U invalidated the adjuvant effect of polyA:U injected together with SRBC, and the hemolysin plaque-forming cell (PFC) response of such mice was similar to that of the mice which received SRBC alone. When mice primed with SRBC 24 days in advance were injected with LPS and 4 days later re-stimulated with SRBC, their PFC response to the secondary stimulation was suppressed to less than one tenth of the normal secondary PFC response. The suppressive effect of LPS on the secondary antibody response was abolished if the serum collected from mice injected with LPS was given to the primed and LPS-injected mice at the time of the secondary antigenic stimulation. From these results we discussed the possibility that some common mediator might play a role in the enhanced antibody response elicited by either adjuvant injection or secondary injection of antigen.     

Ontogeny of murine B-cell responses to thymus-independent trinitrophenyl antigens.

The ontogeny of B-cell responsiveness to three thymus-independent trinitrophenyl (TNP) antigens has been examined in BALB/c mice in vivo and in vitro. When in vivo splenic plaque-forming cell (PFC) responses to TNP-conjugated lipopolysaccharide (TNP-LPS), Ficoll (TNP-Ficoll), and Brucella abortus (TNP-Brucella) were measured in neonatal and adult mice, a defined sequence of responsiveness was observed. Newborn mice responded well to TNP-LPS, but not to TNP-Ficoll or TNP-Brucella. Neonates injected at 1 day of age responded to TNP-LPS and TNP-Ficoll and mice 5 to 14 days of age responded to TNP-LPS, TNP-Ficoll, and TNP-Brucella. Furthermore, the antigen-reactive populations increased at different rates for the three antigens in the first 2 weeks of life. In vitro experiments confirmed the results obtained in vivo although slightly earlier responsiveness to TNP-Brucella was observed in vitro. PFC inhibition assays with free TNP hapten were performed so that avidity profiles could be examined in neonatal and adult anti-TNP PFC responses. The results clearly demonstrate that once a response becomes detectable in neonatal mice immunized with any of the three TI TNP antigens, fully heterogeneous or “adult-like” responses are found. In addition, experiments comparing avidity profiles in athymic (nu/nu) BALB/c mice and their normal (nu/+) littermates demonstrate that T cells are not required for the generation of fully heterogeneous anti-TNP PFC responses. These results indicate that B cells responsive to different TI TNP antigens mature at different times and at different rates during ontogeny. Late maturation events of such B cells do not include the acquisition of additional V-region specificities as detected in a PFC inhibition assay.