Yurong Bu scite author profile

Activation of ATP/P2Y purinergic receptors stimulates proliferation of astrocytes, but the mitogenic signaling pathway linked to these G-protein-coupled receptors is unknown. We have investigated the role of extracellular signal-regulated protein kinase (ERK) in P2Y receptor-stimulated mitogenic signaling as well as the pathway that couples P2Y receptors to ERK. Downregulation of protein kinase C (PKC) in primary cultures of rat cerebral cortical astrocytes greatly reduced the ability of extracellular ATP to stimulate ERK. Because occupancy of P2Y receptors also leads to inositol phosphate formation, calcium mobilization, and PKC activation, we explored the possibility that signaling from P2Y receptors to ERK is mediated by a phosphatidylinositol-specific phospholipase C (PI-PLC)/calcium pathway. However, neither inhibition of PI-PLC nor chelation of calcium significantly reduced ATP-stimulated ERK activity. Moreover, a preferential inhibitor of calcium-dependent PKC isoforms, Gö 6976, was significantly less effective in blocking ATP-stimulated ERK activity than GF102903X, an inhibitor of both calcium-dependent and -independent PKC isoforms. Furthermore, ATP stimulated a rapid translocation of PKCdelta, a calcium-independent PKC isoform, but not PKCgamma, a calcium-dependent PKC isoform. ATP also stimulated a rapid increase in choline, and inhibition of phosphatidylcholine hydrolysis blocked ATP-evoked ERK activation. These results indicate that P2Y receptors in astrocytes are coupled independently to PI-PLC/calcium and ERK pathways and suggest that signaling from P2Y receptors to ERK involves a calcium-independent PKC isoform and hydrolysis of phosphatidylcholine by phospholipase D. In addition, we found that inhibition of ERK activation blocked extracellular ATP-stimulated DNA synthesis, thereby indicating that the ERK pathway mediates mitogenic signaling by P2Y receptors.

show abstract

The Generation of Th Memory in Neonates Versus Adults: Prolonged Primary Th2 Effector Function and Impaired Development of Th1 Memory Effector Function in Murine Neonates

Adkins

Guevara

2001

118

View full text Add to dashboard Cite

Immunization during the neonatal period often results in Th2-biased secondary responses. To understand the regulation of this phenomenon, we have examined all phases of Th development, from the generation of primary effectors to the duration of the primary effector stage to the production of memory effector function. First, we had previously reported that although primary responses in the neonatal lymph nodes are mature, mixed Th1/Th2-like, primary responses in the spleens of the same animals are exclusively Th2-like. To determine whether Th2-dominant secondary responses are due to the Th2-polarized primary function in the spleen, neonates were splenectomized before immunization. Even in the absence of primary neonatal splenic responses, the secondary responses of neonates were Th2 dominant. Thus, the overwhelmingly Th2 primary responses in the neonatal spleen are not required to generate Th2-dominant memory in the lymph nodes. Second, we have compared the kinetics of the primary response phase in neonates and adults. In adults, Ag-specific Th2 function disappeared rapidly from both the lymph nodes and spleen. In contrast, primary Th2 function persisted out to 5 wk in both neonatal organs. Third, the generation of Th memory responses was examined in animals initially immunized as neonates and in adults. These experiments demonstrated that neonates are selectively impaired in the development of Th1 memory effector function. Together, these results indicate that neonates are biased to Th2 function at all phases of an immune response.

show abstract

Exclusive Th2 Primary Effector Function in Spleens but Mixed Th1/Th2 Function in Lymph Nodes of Murine Neonates

Adkins

Cepero

et al. 2000

View full text Add to dashboard Cite

Recent studies have shown that neonatal mice are competent to develop mature, Ag-specific Th1 function in situ. However, under many conditions, Th2 responses dominate in the neonate, while Th1 responses are more prevalent in adults. To compare further the immune responses of neonates and adults, we used the enzyme-linked immunospot method to measure the frequencies of primary Th1/Th2 effectors generated in situ in the spleens and lymph nodes. As assessed by the detection of IFN-gamma- or IL-4-producing cells, adults developed mixed Th1/Th2 responses in both organs. Neonatal lymph nodes contained mature frequencies of IFN-gamma- and IL-4-producing cells. In striking contrast, while mature frequencies of Th2 cells developed in neonatal spleens, virtually no IFN-gamma-secreting cells were detected. Exclusive Th2 function was observed in both BALB/c and C57BL/6 neonates, strains in which the Th2 and Th1 lineages, respectively, are favored in adults. Although Th1 effectors were virtually undetectable, the addition of rIL-12 boosted the frequency of IFN-gamma-secreting cells to adult levels. Therefore, Th1 effectors apparently developed in situ, but Th1 effector function either was not promoted or was inhibited upon subsequent exposure to the Ag in culture. Together, these results indicate that the quality of a primary Th response in neonates is strongly dependent on the site of initial Ag exposure; responses initiated in the lymph nodes are mixed Th1/Th2, whereas responses occurring in the spleen are heavily Th2 biased.

show abstract

Murine Neonatal Lymphocytes Show Rapid Early Cell Cycle Entry and Cell Division

Adkins

Williamson

Guevara

et al. 2003

View full text Add to dashboard Cite

Neonatal animals are highly susceptible to infectious agents. At least part of this susceptibility is due to the virtual absence of immunological memory in newborns. One of the hallmarks of memory is the rapidity of the response. We show in this study that neonates may make up for their lack of memory, at least in part, by the rapid entry of large proportions of naive lymphocytes into the cell cycle. Following activation, greater percentages of both CD4+ and CD8+ neonatal, as compared with adult, lymph node cells showed early cell cycle entry; this was assessed by propidium iodide staining, CFSE labeling profiles, [3H]thymidine uptake, and up-regulation of early activation markers. This rapid cycle entry was observed following polyclonal activation with anti-CD3 or with PMA and ionomycin and in both C57BL/6 and BALB/c mice. Stimulation with specific peptide also elicited more rapid proliferative responses from neonatal vs adult TCR transgenic CD4+ cells. In addition, more rapid cycle entry was observed in vivo, in lymphopenic RAG2−/− hosts. For both CD4+ and CD8+ cells, this phenomenon was observed out to 3 wk of life, although the differences between neonatal and adult cells became smaller with increasing time postbirth. These properties of peripheral neonatal T cells appeared to be inherited from their thymic precursors, because CD4+8− single-positive cells in the neonatal thymus also showed more rapid cycle entry, compared with their counterparts in the adult thymus. Interestingly, rapid early cycling was also observed among activated neonatal B cells, compared with adult B cells. Thus, early cell cycle entry by large proportions of cells may allow the naive lymphocyte population to efficiently mobilize responses against the broad range of pathogens first encountered in neonatal life.

show abstract

Murine Neonatal CD4+ Lymph Node Cells Are Highly Deficient in the Development of Antigen-Specific Th1 Function in Adoptive Adult Hosts

Adkins

Guevara

2002

View full text Add to dashboard Cite

It is well established that murine neonates are biased toward Th2 responses. Th2-dominant responses are observed following immunization with a variety of Ags, using different carrier/adjuvant systems, and are seen in both BALB/c and C57BL/6 mice. Therefore, Th2 skewing appears to be a universal phenomenon unique to the neonatal period. One important question about this phenomenon is whether these responses are due to T cell intrinsic properties or are regulated by the neonatal environment. Here we have addressed this issue by transferring neonatal or adult CD4+ lymph node cells to adoptive adult recombinase-activating gene 2−/− hosts and studied the development of Th responses. Neonatal CD4+ cells were highly deficient in the development of both primary and secondary Ag-specific Th1 responses. This did not appear to be due to anergy of a developed population, since exogenous IL-2 only marginally increased production of the Th1 cytokine IFN-γ. This profound Th1 deficiency was observed despite similar proliferation by neonatal and adult cells within the recombinase-activating gene 2−/− hosts. Moreover, neonatal CD4+ cells up-regulated activation markers in a manner similar to adult CD4+ cells. Therefore, although their proliferation and phenotypic maturation proceeded normally, neonatal CD4+ cells appeared to be intrinsically deficient in the functional maturation of Th1 lineage cells. These results offer a candidate explanation for the reduced graft-vs-host responses observed following transplantation of cord blood cells or murine neonatal lymphoid cells to allogeneic adult hosts.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Yurong Bu

Mitogenic Signaling by ATP/P2Y Purinergic Receptors in Astrocytes: Involvement of a Calcium-Independent Protein Kinase C, Extracellular Signal-Regulated Protein Kinase Pathway Distinct from the Phosphatidylinositol-Specific Phospholipase C/Calcium Pathway

The Generation of Th Memory in Neonates Versus Adults: Prolonged Primary Th2 Effector Function and Impaired Development of Th1 Memory Effector Function in Murine Neonates

Exclusive Th2 Primary Effector Function in Spleens but Mixed Th1/Th2 Function in Lymph Nodes of Murine Neonates

Murine Neonatal Lymphocytes Show Rapid Early Cell Cycle Entry and Cell Division

Murine Neonatal CD4+ Lymph Node Cells Are Highly Deficient in the Development of Antigen-Specific Th1 Function in Adoptive Adult Hosts

Contact Info

Product

Resources

About