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Query: UNIPROT:P14784 (
IL-2 receptor
)
3,849
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
T cell growth factors (TCGFs) play a critical role in allograft rejection by promoting the activation and proliferation of alloreactive T cells. To determine whether IL-2 and IL-4 are of quintessential importance in allograft rejection and to identify possible alternative TCGFs, we have bred IL-2(-/-) and IL-4(-/-) double knockout (DKO) mice and studied islet allograft rejection using the DKO mice as allograft recipients. Although mononuclear leukocytes from DKO mice did not mount a proliferative response in vitro in response to anti-CD3 stimulation, crude islet allografts were vigorously rejected by DKO mice (mean survival time 17 +/- 7, n = 8) as compared with wild-type controls (mean survival time 13 +/- 4, n = 7). Treatment of DKO mice with anti-CD3 or rapamycin markedly prolonged the islet allograft survival. An analysis of intragraft cytokine gene transcripts showed robust expression of IL-7 and
IL-15
. In contrast, intragraft IL-9 gene transcripts were not detected in either wild-type or DKO mice. Provision of exogenous IL-2, IL-4, IL-7, or
IL-15
, but not IL-9, supports the proliferation of anti-CD3 activated DKO splenic leukocytes in vitro. Blocking the common gamma c of
IL-2 receptor
, a shared essential signaling component by receptors for IL-2, IL-4, IL-7, IL-9, and
IL-15
, prolonged the survival of islet allografts in DKO mice. Hence, a T cell dependent allograft rejection enabled by rapamycin-sensitive signals or signals mediated by binding of the gamma c chain occurs in the absence of both IL-2 and IL-4. Non-T cell-derived TCGFs, especially IL-7 and
IL-15
, may play an active role in supporting allograft rejection.
...
PMID:IL-2 and IL-4 double knockout mice reject islet allografts: a role for novel T cell growth factors in allograft rejection. 967 Sep 67
This review focuses on the biological effects of the newly discovered cytokine,
interleukin 15
(
IL-15
), in chronic inflammatory disorders.
IL-15
shares biological activities with IL-2, and like IL-2 it is a member of the four-helix bundle cytokine family.
IL-15
interacts with a heterotrimeric receptor that consists of the beta and gamma subunits of the
IL-2 receptor
(IL-2R) as well as a specific, high-affinity
IL-15
-binding subunit, IL-1SRalpha.
IL-15
is produced by macrophages and various other cells in response to environmental stimuli and infectious agents, and it is important for the growth and differentiation of T and B lymphocytes, natural killer cells, macrophages, and monocytes as well as it activates a number of important intracellular signaling molecules, including the Janus kinases and members of the transcription factor family of signal transducers and activators of transcription. These facts suggest that IL- 15 may play a pivotal role both in protective immune responses and in the pathogenesis of various chronic immuno-inflammatory disorders. The important new insight into the role of
IL-15
in diseases such as rheumatoid arthritis, sarcoidosis, chronic hepatitis C, and ulcerative colitis are reviewed in this paper.
...
PMID:Interleukin-15 and its role in chronic inflammatory diseases. 971 92
GammadeltaT cells play a regulatory role in both primary and metastatic tumor growth in humans. The mechanisms responsible for the activation and proliferation of circulating gammadeltaT cells should be fully understood prior to their adoptive transfer to cancer patients. We have examined in vitro functional effects of
interleukin-15
(
IL-15
) on highly purified gammadeltaT cells isolated from glioblastoma patients. GammadeltaT cells constitutively express the heterotrimeric
IL-2 receptor
(IL-2R) alpha betagamma, but the levels of IL-2Rbeta or gamma expression were not increased by incubation with saturating amounts of
IL-15
.
IL-15
was shown to induce a maximal gammadeltaT cell proliferation, although at much higher concentrations (at least 2000 U/ml) than IL-2 (100 U/ml). Submaximal concentrations of
IL-15
plus low concentrations of IL-2 produced an additive proliferative response. In contrast to the IL-2-induced response, this activity was completely or partially abrogated by anti-IL-2Rbeta, or anti-IL-2Rgamma antibodies, but not by anti-IL-2R alpha antibodies. Incubation of gammadeltaT cells in the presence of
IL-15
resulted not only in the appearance of NK and LAK activity, but also in specific autologous tumor cell killing activity, an additive effect being seen with
IL-15
and IL-2. This
IL-15
-induced tumor-specific activity could be significantly blocked by anti-IL-2Rgamma and anti-IL-2R-beta mAb, but not by anti-IL-2R alpha mAb. Thus, in contrast to IL-2,
IL-15
activates tumor-specific gammadeltaT cells through the components of IL-2Rbeta and IL-2Rgamma, but not IL-2R alpha. These enhanced in vitro tumor-specific and proliferative responses of gammadeltaT cells seen with
IL-15
suggest a rational adjuvant imunotherapeutic use of gammadeltaT cells in cancer patients.
...
PMID:Interleukin-15 effectively potentiates the in vitro tumor-specific activity and proliferation of peripheral blood gammadeltaT cells isolated from glioblastoma patients. 976 18
Cytokine pathways are essential for the differentiation and function of lymphoid cells. The major T-cell growth factor is IL-2, which is produced by subsets of T lymphocytes in response to antigenic stimulation. The
IL-2 receptor
is expressed by T cells after antigenic stimulation, and when engaged by IL-2 induces proliferation, differentiation, and protection from apoptosis. Rare patients with severe combined immune deficiency (SCID) have been found to have mature T lymphocytes that do not produce IL-2, although no genetic abnormality has yet been defined for these patients. The fact that these patients and IL-2 knockout mice have the ability to generate mature T lymphocytes indicates that IL-2 is the major growth factor for mature T lymphocytes but not for immature thymocytes. X-linked SCID, the most common form of SCID, has a phenotype of thymic hypoplasia, peripheral T lymphopenia, the presence of B lymphocytes that do not undergo normal class switching, and usually the absence of natural killer (NK) cells. X-SCID is caused by mutations of a receptor subunit, which was originally described as the IL-2Rgamma. The phenotypic differences between X-SCID and IL-2-deficient SCID suggests that the IL-2Rgamma chain might be a component of other receptors needed for thymic development, B cell class-switching, and NK development. The IL-2Rgamma is now known to be a shared subunit between the IL-2, IL-4, IL-7, IL-9, and
IL-15
receptors, which explains the complex X-SCID phenotype. Because of this shared usage, the IL-2Rgamma is known as the common gamma chain (gamma c). Each ligand induces dimerization of gamma c with the ligand-specific receptor subunit, eg, the IL-2Rbeta, resulting in signal transduction through the JAK-STAT (signal transducers and activators of transcription) pathway. The JAK3 tyrosine kinase is constitutively associated with the gamma c and is necessary for signaling through the gamma c-containing receptors. Deficiency of JAK3 gives rise to a SCID phenotype that closely resembles that of X-SCID, but is autosomally recessive in inheritance. It is likely that other specific immune deficiencies of the cytokine pathways exist, eg, IL-7Ralpha-deficient SCID. T cells with wild-type gamma c and JAK3 proteins have a profound selective advantage over cells that contain mutant proteins. The selective advantage allows these patients to be treated by bone marrow transplantation (BMT) without ablative chemotherapy, and is the reason that these forms of SCID are potential targets for early gene therapy efforts.
...
PMID:X-linked SCID and other defects of cytokine pathways. 980 Dec 59
We have investigated the regulation of adult and cord blood CD45RA+ T cell proliferation and apoptosis to identify factors that may control the naive T cell pool. Cord CD45RA+ T cells were highly susceptible to spontaneous apoptosis as compared with CD45RA+ T cells from adults. Apoptosis was prevented by the addition of IL-2, IL-4, IL-7, and
IL-15
which signal via the gamma-chain of the
IL-2 receptor
. IL-7 prevented the decrease in Bcl-2 and Bcl-xL and induced cell cycling in up to 20% of cord T cells after 8 days, resulting in a threefold increase in cord T cell numbers. However, the expanded cells retained a CD45RA+ CD45RO- phenotype. Similar results were obtained with adult CD45RA+ T cells. IL-7-expanded CD45RA+ RO- T cells expressed CD45RO after stimulation through the TCR. Investigations into the regulation of replicative senescence showed that after 12 days in culture with IL-7, cord blood CD45RA+ T cell proliferation resulted in telomere shortening. Nevertheless, IL-7-expanded cord blood T cells still maintained longer telomeres than unstimulated adult T cells. IL-7 but not IL-2 could directly induce high telomerase activity which probably retarded the rate of telomere shortening in cord blood T cells. These results suggest that proliferation induced by IL-7 may be important for extrathymic expansion of neonatal CD45RA+ T cells and may also contribute to the maintenance of the adult CD45RA+ T cell pool.
...
PMID:IL-7-dependent extrathymic expansion of CD45RA+ T cells enables preservation of a naive repertoire. 983 71
We have analyzed the immune system in Stat5-deficient mice. Although Stat5a-/- splenocytes have a partial defect in anti-CD3-induced proliferation that can be overcome by high dose interleukin (IL)-2, we now demonstrate that defective proliferation in Stat5b-/- splenocytes cannot be corrected by this treatment. Interestingly, this finding may be at least partially explained by diminished expression of the
IL-2 receptor
beta chain (IL-2Rbeta), which is a component of the receptors for both IL-2 and
IL-15
, although other defects may also exist. Similar to the defect in proliferation in activated splenocytes, freshly isolated splenocytes from Stat5b-/- mice exhibited greatly diminished proliferation in response to IL-2 and
IL-15
. This results from both a decrease in the number and responsiveness of natural killer (NK) cells. Corresponding to the diminished proliferation, basal as well as IL-2- and
IL-15
-mediated boosting of NK cytolytic activity was also greatly diminished. These data indicate an essential nonredundant role for Stat5b for potent NK cell-mediated proliferation and cytolytic activity.
...
PMID:Stat5b is essential for natural killer cell-mediated proliferation and cytolytic activity. 984 20
In the last few years, the routine development of knockout and transgenic mice and the ease with which rare progenitor populations can be isolated from hematopoietic organs and cultured in vitro has facilitated significant advances in understanding the lineage and development of natural killer (NK) cells. Fluorescence-activated cell sorter analyses have identified a common lymphoid progenitor capable of giving rise to NK, T, and B cells, confirming the lymphoid origin of NK cells. Knockout and transgenic mouse models have pointed to an absolutely critical role for signals sent through the interleukin (IL)-2/15 receptor beta (
CD122
) chain and common gamma (gamma c) chain for NK development. Such signals are likely relayed inside the cell by the tyrosine kinase Jak3, which associates with gamma c. Recently developed
IL-15
and
IL-15
receptor alpha knockout mice have pinpointed
IL-15
as the mediator of this signal. Other mouse models have indicated an unexpected role for flt3 ligand in early NK-cell development as well as minor roles for stem cell factor and IL-7 in expanding NK-cell progenitor numbers. Finally, in vitro culture systems have proven useful in identifying the point in NK development at which each of these signals is critical.
...
PMID:Natural killer cell differentiation: insights from knockout and transgenic mouse models and in vitro systems. 985 Aug 51
We observed that the gammadelta T cell subset expands when human peripheral blood mononuclear cells (PBMC) from malaria-naive donors are cultured with Plasmodium falciparum lysate in the presence of IL-2 or
IL-15
, cytokines that utilize two common
IL-2 receptor
subunits.
IL-15
induced the expansion of the gammadelta T cell subset at all levels tested, whereas IL-2 was not stimulatory at high levels. Flow cytometric analysis of apoptosis using the TUNEL assay indicated that the percentage and absolute number of gammadelta T cells undergoing apoptosis were greater in cultures stimulated with antigen and IL-2 than in cultures stimulated with either antigen and
IL-15
or control erythrocyte lysate and IL-2. The ability of
IL-15
to enhance gammadelta T cell function was also assessed; the results suggest that
IL-15
can function with IL-2 to enhance the capacity of gammadelta T cells to inhibit parasite replication. Together these data indicate that IL-2 and
IL-15
, which both bind to IL-2Rbeta and IL-2R(gamma)c, enhance gammadelta T cell function, but they appear to have different effects on proliferation and survival.
...
PMID:The effects of interleukin-15 on human gammadelta T cell responses to Plasmodium falciparum in vitro. 987 Jun 63
More
interleukin 15
(
IL-15
) than IL-2 was needed to generate comparable proliferative responses by phytohaemagglutinin (PHA) blasts and Tf-1beta cells expressing high affinity and intermediate affinity
IL-2 receptor
(IL-2R) complexes, respectively. The focus of these experiments was to determine the contribution of the shared IL-2 and
IL-15
receptor components to these dose-response differences. Some of this difference can be attributed to the role of the IL-2Rbeta chain, in that HuMikbeta1, a monoclonal antibody recognizing the IL-2Rbeta chain, blocks 92.2+/-2.5% (mean+/-SE) of the IL-2 proliferative response by Tf-1beta cells but only inhibits 57.9+/-3.7% of the
IL-15
response, indicating that IL-2 and
IL-15
may physically utilize the IL-2Rbeta chain differently. Monoclonal antibody 341, which recognizes IL-2Rbeta but does not inhibit IL-2 binding to the IL-2Rbeta chain, blocks 35.4+/-2.3% of
IL-15
-stimulated proliferation of PHA blasts, while not affecting the IL-2-stimulated proliferation. Finally, although HuMikbeta1 does not inhibit IL-2 responses by PHA blasts bearing high affinity IL-2 receptors, HuMikbeta1 does block
IL-15
-stimulated proliferation by these same cells bearing high affinity
IL-15
receptors (88.5+/-1.6% inhibition). This indicates that the role of IL-15Ralpha in the high affinity IL-15R complex is distinct from that of IL-2Ralpha in the high affinity IL-2R complex. Overall, these studies show that the physical interactions of the IL-2Rbetagammac complex with IL-2 are different than the interactions with
IL-15
.
...
PMID:Distinctions in lymphocyte responses to IL-2 and IL-15 reflect differential ligand binding interactions with the IL-2Rbeta chain and suggest differential roles for the IL-2Ralpha and IL-15Ralpha subunits. 1004 15
Human intraepithelial lymphocytes (IEL), CD8+ lymphocytes located between epithelial cells, are likely to be influenced by the immunosuppressive cytokine, TGF-beta, secreted by epithelial cells. This study evaluates the effects of TGF-beta on IEL functions. IEL were derived from proximal jejunum of patients undergoing gastric bypass operations for morbid obesity. Proliferation was determined by 3H-thymidine incorporation; IL-2 production, by ELISA; expression of
IL-2 receptor
, CD2, HML1, CD16, and CD56, by immunofluorescence; binding, by adherence of radiolabelled cells; and cytotoxicity by 51Cr-release assay. TGF-beta (> or = 1 ng/ml) inhibited the mitosis of IEL to mitogens, IL-7, and stimuli of the CD2 and CD3 pathways. The blocking effect did not target the activation events of IL-2 production and receptor generation. Rather, it reduced cell division after activation when added 24 h after initiating the culture. Antibody neutralization of naturally occurring TGF-beta increased IEL proliferation to IL-2, but not to the other stimuli. Of the multiple surface markers tested, only CD2 and HML1 expression increased with TGF-beta and decreased with antibody to TGF-beta, although the cytokine and the neutralizing antibody had no effects on IEL binding to colon cancer. TGF-beta reduced the number of CD56+ IEL and the lymphokine-activated killing when co-cultured with IL-7 but not with IL-2 or
IL-15
. TGF-beta inhibits certain IEL functions: the reduction in cell division rather than activation and a decline in IL-7-mediated lysis of colon cancer due to a lowering of the number of natural killer cells.
...
PMID:Inhibitory effects of transforming growth factor-beta (TGF-beta) on certain functions of intraepithelial lymphocytes. 1019 12
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