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N total leukocytes from common marmosets and humans. Since IL-4 is mainly produced by CD4+ T cells [31,32], its expression level may be influenced by the CD4:CD8 ratio. However, this is not true for all the cytokines tested. For example, the expression levels of IL-2, IL-5 and IL-13, largely produced by T cells, were not significantly different between common marmosets and humans. Therefore, we suggest that the CD4:CD8 ratio has little effect on Th1/Th2 balance. IL-10 is produced by T cells and monocytes [33] and IL12b is naturally produced by dendritic cells and macrophages [34,35]. However, we could not verify these cell numbers in the common marmoset. Further studies are required to determine whether the numbers of cytokine-producing cells influence the expression levels of IL-10 and IL-12b. Another 86168-78-7 custom synthesis possibility is genetic variation. Bostik et al., reported distinct sequence differences in the promoter region or the proximal region of cytokine genes including IL-4, IL-10, IL-12b and TNF-c among humans, macaque and mangabey monkeys, which affected regulation of cytokine synthesis [36]. Jeong et al., reported that the expression level of IL-4 was lower in monkeys (baboon and macaque) than in hominoids (human and chimpanzee) while the expression levels of IL-12b and the IFN-c were higher in monkeys [37]. It is likely that Th1 dominant expression is common to primates other than hominoids and the difference in Th1/Th2 balance may be caused by genetic differences between common marmosets and humans. The use of common marmoset is growing in popularity as a non-human primate model in many fields including autoimmune disease and infectious disease. In this study, we presented data regarding gene expression stabilities of common marmoset housekeeping genes and differences in the Th1/Th2 balance between common 23977191 marmosets and humans. This difference may DprE1-IN-2 price affect host defense and/or disease susceptibility, which should be carefully considered in biomedical research using common marmoset as an experimental model. We believe our data will contribute to future investigations using common marmoset models of various diseases.AcknowledgmentsWe would like to acknowledge the efforts of Yasushi Ami in animal experiments. We also thank Ms. Hiro Yamada for technical assistance.Author ContributionsConceived and designed the 23727046 experiments: YF TM K. Kitaura TS YH IK RS. Performed the experiments: YF K. Kitaura KS SS TT YK ST HK. Analyzed the data: YF RS. Contributed reagents/materials/analysis tools: K. Kumagai KS. Wrote the paper: TM K. Kitaura TS YH IK RS.
Experiences during early postnatal life play an important role in the development of brain function and the refinement of specific neural connections. For example, monocular deprivation (MD) in early postnatal life induces a significant loss of visual cortical responses to the deprived eye in the primary visual cortex (V1) [1,2]. This so-called ocular dominance plasticity (ODP) exhibits a critical period [2,3], a postnatal time window in which animals are susceptible to MD, and has been studied as a model of experience-dependent development of neural circuits. Initiation of the critical period requires normal visual experience and the maturation of inhibitory circuit in V1 [4,5]. Visual experience and postnatal development affect the expression of various molecules that might contribute to ODP in V1 [6?]. Endocannabinoids (eCBs) function as retrograde messengers at synapses that can suppress the release of neuro.N total leukocytes from common marmosets and humans. Since IL-4 is mainly produced by CD4+ T cells [31,32], its expression level may be influenced by the CD4:CD8 ratio. However, this is not true for all the cytokines tested. For example, the expression levels of IL-2, IL-5 and IL-13, largely produced by T cells, were not significantly different between common marmosets and humans. Therefore, we suggest that the CD4:CD8 ratio has little effect on Th1/Th2 balance. IL-10 is produced by T cells and monocytes [33] and IL12b is naturally produced by dendritic cells and macrophages [34,35]. However, we could not verify these cell numbers in the common marmoset. Further studies are required to determine whether the numbers of cytokine-producing cells influence the expression levels of IL-10 and IL-12b. Another possibility is genetic variation. Bostik et al., reported distinct sequence differences in the promoter region or the proximal region of cytokine genes including IL-4, IL-10, IL-12b and TNF-c among humans, macaque and mangabey monkeys, which affected regulation of cytokine synthesis [36]. Jeong et al., reported that the expression level of IL-4 was lower in monkeys (baboon and macaque) than in hominoids (human and chimpanzee) while the expression levels of IL-12b and the IFN-c were higher in monkeys [37]. It is likely that Th1 dominant expression is common to primates other than hominoids and the difference in Th1/Th2 balance may be caused by genetic differences between common marmosets and humans. The use of common marmoset is growing in popularity as a non-human primate model in many fields including autoimmune disease and infectious disease. In this study, we presented data regarding gene expression stabilities of common marmoset housekeeping genes and differences in the Th1/Th2 balance between common 23977191 marmosets and humans. This difference may affect host defense and/or disease susceptibility, which should be carefully considered in biomedical research using common marmoset as an experimental model. We believe our data will contribute to future investigations using common marmoset models of various diseases.AcknowledgmentsWe would like to acknowledge the efforts of Yasushi Ami in animal experiments. We also thank Ms. Hiro Yamada for technical assistance.Author ContributionsConceived and designed the 23727046 experiments: YF TM K. Kitaura TS YH IK RS. Performed the experiments: YF K. Kitaura KS SS TT YK ST HK. Analyzed the data: YF RS. Contributed reagents/materials/analysis tools: K. Kumagai KS. Wrote the paper: TM K. Kitaura TS YH IK RS.
Experiences during early postnatal life play an important role in the development of brain function and the refinement of specific neural connections. For example, monocular deprivation (MD) in early postnatal life induces a significant loss of visual cortical responses to the deprived eye in the primary visual cortex (V1) [1,2]. This so-called ocular dominance plasticity (ODP) exhibits a critical period [2,3], a postnatal time window in which animals are susceptible to MD, and has been studied as a model of experience-dependent development of neural circuits. Initiation of the critical period requires normal visual experience and the maturation of inhibitory circuit in V1 [4,5]. Visual experience and postnatal development affect the expression of various molecules that might contribute to ODP in V1 [6?]. Endocannabinoids (eCBs) function as retrograde messengers at synapses that can suppress the release of neuro.

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