Effect of prodigiosin and its combination with immunodepressants on the graft versus host reaction in mice

The local (lymph node) graft-versus-host reaction (GVHR) in F1 (CBA X C57BL/6) mice and the lethal GVHR in C57BL/6 mice were induced by transfer of lymph node cells of CBA mice with skin allotransplants from C57BL/6 mice. Prednisolone in combination with asathioprin (imuran) administered to CBA mice inhibited the GVHR. Prodigiosan used alone was not active, while in combination with immunodepressants it increased their inhibitory effect. Adhesive cells with a suppressive activity were detected in the spleen of mice treated with prodigiosan. Such cells were capable of suppressing the capacity of syngeneic lymphocytes for inducing the GVHR.     

Impaired cellular immunecompetence in infectious mononucleosis as assessed by a local graft-versus-host reaction in rats and restoration of the immunecompetence by trypsin.

Lymphocytes from 11 patients with acute infectious mononucleosis were tested for functional capacity by means of a local graft-versus-host reaction (GVHR) and for T lymphocyte markers by the spontaneous rosette-formation test (E rosette). All of the patients showed an increased percentage (49–75%) and high absolute numbers (2078–8736/mm³) of E rosette-forming cells but no functional activity, i.e., a negative GVHR. Repeated examinations performed in four patients at intervals up to 6 months after the initial test showed a significant drop in the number of E rosette-forming cells although the GVHR remained negative. Trypsinization of lymphocytes performed in nine of the 11 patients resulted in recovery of immunecompetence of the T lymphocytes in five; in contrast, trypsinization of normal control lymphocyte abolished their ability to mount a normal GVHR. In view of the number of cases in which infectious mononucleosis has been followed by lymphoproliferative diseases, the importance of long-term follow-up in patients who have undergone an episode of infectious mononucleosis is stressed.     

Thymus target cells subject to the regulatory effect of macrophages during the formation of graft-versus-host reaction effectors

The data are provided on the interaction of macrophages with different thymocyte subpopulations during the formation of T cells entering the graft-versus-host reaction (GVHR). The intensity of the local GVHR was evaluated from the index of lymph node enlargement. The cortisone-sensitive, relatively radioresistant cells lying in the thymus cortex and migrating to the spleen have been demonstrated to serve as targets for the regulatory effect of macrophages. On the basis of a complex of the characteristics these cells have been identified as T1 cells.     

Early intestinal Th1 inflammation and mucosal T cell recruitment during acute graft-versus-host reaction

Little is understood about the earliest cytokine responses and the role(s) of donor CD4 T cells in the intestine during the induced graft-vs-host reaction (GVHR). We investigated the activation and mucosal homing phenotype of the donor CD4 cells and the kinetics of cytokine responses within the intestine and associated lymphoid tissues during early GVHR. Significant frequencies of donor CD4 cells accumulated within recipient Peyer's patches (PP), mesenteric lymph nodes (MLN), lamina propria (LP), and spleen (SP), during the first 9 days of GVHR. Many donor CD4 cells in SP, MLN, and LP expressed CD44 and also expressed de novo the mucosal homing integrin alpha(4)beta(7) (LPAM-1). A large IFN-gamma response occurred by day 3 in cells from PP and MLN, but much later (day 9) in SP and LP cells. IL-10 production by SP and MLN cells was elevated initially but declined substantially by day 9. IL-4 production by SP, MLN, and PP cells was low on day 3 and showed gradual decline in LP by day 9. IL-5 production by LP cells gradually increased in direct contrast to IL-5 production by MLN cells. The MLN CD4 cells showed the most dynamic changes, with high numbers of activated/effector donor CD4 cells and altered cytokine production consistent with a developing Th1 response. The IFN-gamma responses in PP and MLN preceded that of the SP, suggesting an intestinal origin for some Th1 effector cells in GVHR. Donor CD4 T cells apparently acquire the ability to home to the LP during early GVHR.     

Increased resistance of (CBAxC57BL/6)Fl hybrids to the graft-versus-host reaction during spleen regeneration]

Partial splenectomy was performed in CBAXXC57BL/6/F1 hybrids 2, 12, 15 and 20 days before the graft-versus-host reaction induction (GVHR) and 2, 10 days after administration of parenteral immunocompentent cells. The recipients with the intact spleen or complete splenectomy and sham operated recipients served as control. Hybrids with the regenerating spleen were more resistant to GVHR within 12 days of regeneration, while splenectomy increased hybrid resistance to GVHR only when performed 2 days before or 2 days following the GVHR induction.     

Paracrine effect of folliculo-stellate cells on the growth factor-like action of activin A in anterior pituitary cultures.

Several studies have shown that pituitary folliculo-stellate (FS) cells exhibit local functions within the pituitary gland. On the other hand, we have shown previously that activin A increases the number of FSH-producing gonadotropes in cultured rat anterior pituitary cells. In this study, we investigated whether FS cells exert an influence on the action of activin A. FS cells were prepared by culturing the dispersed rat anterior pituitary cells in media containing 15% fetal calf serum and 6 mM glutamine for 15 days. Most cells had the morphological characteristics of FS cells and S-100 protein immunoreactivity, a specific marker of FS cells. The number of FSH cells, which was higher in activin A-treated than in control cultures, was reduced to the control level by incubation with activin A plus conditioned media from FS cell-enriched cultures (FSCM). This inhibitory effect of FSCM was neutralized by a follistatin antibody, but not by anti-S-100 protein or anti-basic fibroblast growth factor. Furthermore, follistatin suppressed activin A stimulated increases in the number of FSH cells in a similar inhibitory pattern to that of FSCM. Meanwhile, the number of FSH cells was not affected by FSCM or follistatin in the absence of activin A. These results suggest that FS cells are involved in the regulation of the function and/or the morphogenesis of the FSH cell-lineage by affecting the action of activin A, and that this paracrine effect of FS cells is mediated by follistatin.     

Effects of the chromatographic fractions of the pig placental trophoblast on graft-versus-host reaction

The trophoblast has a significant role in regulation of immune reactions at the materno-fetal interface by producing biologically active substances. In our previous studies five fractions with immunomodulatory activities were isolated by gel chromatography from trophoblast of pig placentas. To confirm the immunomodulatory effect of these trophoblast fractions on allogeneic in vivo systems and to obtain more evidence for the relevance of their activity on the maternofetal interface, their effect was studied on graft-versus-host reaction (GVHR). To assess the GVHR, the primary and secondary popliteal lymph nodes assay was used in mice. In the primary GVHR, 100 microg protein of Fraction 2-5, mixed with 5 x 10(6) allogeneic spleen cells (C57BL/6), were injected into one of the foot pads of recipient (BALB/c) mice. The secondary GVHR was induced in F1 (BALB/c x C57BL/6) mice by injection of spleen cells of BALB/c mice intraperitoneally preimmunized with allogeneic cells. The GVHR was measured by the weight of lymph nodes and by the lymphocyte proliferation. Flow cytometric analyses of the cells in the nodes with GVHR and under the influence of Fraction 4 or 5 were performed using monoclonal antibodies. In the primary GVHR, Fraction 4 or 5, injected simultaneously with allogeneic spleen cells, significantly suppressed the lymph nodes reactivity. Fractions 4 and 5 inhibited the ability of the spleen cells of mice intraperitoneally preimmunized with allogeneic cells to induce secondary GVHR in F1 mice. The Fraction 2 and 3 had no effect on GVHR. The results revealed that a group of proteins with Mr 37-7 kDa, isolated from trophoblast of pig placenta, strongly suppressed popliteal lymph node reactivity in the primary and secondary GVHR. The data provide convincing evidence for these fractions in vivo activity, for their effect across the species barrier and suggest the relevance of the same reactions on the materno-fetal interface.     

Characteristics of the reactions to N-alloantigens of lymphoid cells from hydrocortisone-stimulated and adrenalectomized mice]

The capacity of the spleen, bone marrow and thymus cells from CBA mice (intact, adrenalectomized, and those treated with single or repeated hydrocortisone injections) to induce the lymph node type of "graft-versus-host" reaction (GVHR) in (CBA X C57BL) F1 hybrid recipients was evaluated. Two days after 2.5 mg hydrocortisone injection the capacity of the spleen and bone marrow cells to induce GVHR increased while that of the thymus cells remained unchanged. Seven and particularly 15 days after hydrocortisone injection the spleen cells became less active. Two days following repeated daily hormone injections in a dose of 0.25 mg within 18 days the thymocyte activity in GVHR increased, while that of the spleen and bone marrow cells did not change.     

Reciprocal influence of the graft vs. host reaction and pregnancy]

The graft versus host reaction (GVHR) was induced in mouse females-hybrids F1 (CBA X C57BL/6) by intravenous injection of suspension of the lymphoid cells of the spleen and of lymphoid nodes from C57BL/6 mouse females. Pregnancy resulted from interbreeding of the test females with syngenic males 1--5 days before, and 1--10, 10--20, 30--40 and more than 40 days after the moment of the lymphoid cells injection, aggravated the GVHR induced transplantation disease. At the same time the GVHR under these conditions decreased the percentage of pregnant animals and brought to child-bearing disfunction of the test animals (stillbirth, death of pregnant females, miscarriage). In some of the test mice aggravation of the GVHR was observed after delivery. Survival of the progeny decreased.     

In vitro analysis of allogeneic lymphocyte interaction. III. Generation of a helper allogeneic effect factor (AEF) across an I-J subregion disparity.

Allogeneic effect factors (AEF) were produced across an I-J subregion incompatibility. The helper activity of these AEFs is H-2 restricted since they help B cells only of the stimulator haplotype and of other haplotypes that carry the same I-J subregion gene(s) as the stimulator haplotype. Immunoadsorption studies demonstrate that they consist of I-J determinants derived initially from the GVHR host and MLR stimulator cells and not the GVHR donor and MLR responder cells used to generate AEF. It is postulated that the genetic restriction of AEF helper activity is mediated in part by the ability of the GVHR activated donor T cells to acquire, in vivo, recipient T cell and/or macrophage derived I-J determinants. Cellular adsorption studies indicate that AEF helper activity may be adsorbed by B cells, but neither T cells nor macrophages, of the stimulator haplotype. The results suggest that an I-J-positive AEF interacts with an I-J subregion controlled complementary recognition structure on a target B cell and, after antigenic stimulation, activates that B cell to IgG antibody synthesis.     

Mls-1a-induced peripheral tolerance to host minor histocompatibility antigens in radiation bone marrow chimeras. Modification of T cell repertoire associated with active suppression and permanent presentation of host antigens.

Minor histocompatibility Ag (mHAg) can be responsible for the development of graft vs host reaction (GVHR) after bone marrow transplantation. In a mouse model, B10.D2 donor immunization against Mls-1a prevents lethal GVHR developed by CD4+ T cells against DBA mHAg in irradiated (DBA/2 x B10.D2)F1 hosts. Such F1 hosts become 100% chimeric and show long term survival (LS mice). The cellular mechanisms underlying the tolerance in LS mice was investigated. It was found that a state of tolerance can be induced in thymectomized F1 hosts. Although spleen cells from LS mice are able to initiate lethal GVHR in third-party H-2k-incompatible hosts, no GVHR is observed in secondary hosts incompatible for specific DBA/2 mHAg. Mixed lymphocyte experiments in vitro confirm that T cells from LS mice are unresponsive toward specific DBA/2 mHAg, although they are able to proliferate in response to H-2 or Mls-1a Ag. The responsiveness to Mls-1a correlates with the presence of V beta 6+ cells in LS mice, probably derived from mature T cells present in the donor inoculum. The tolerance in LS mice is not due to the lack of DBA/2 mHAg presentation; instead, permanent presentation of Ag (Ag I and Ag II) previously described as being responsible for lethal GVHR is consistently observed. A significant protection against GVHR is obtained by transferring normal B10.D2 cells together with spleen cells from LS mice, clearly indicating the contribution of active suppression in the state of tolerance; this is further confirmed by in vitro results obtained in limiting dilution assays. It is concluded that tolerance in chimeric LS mice 1) is due to a peripheral (thymus-independent) mechanism; 2) is specific for mHAg; 3) correlates with unresponsiveness of the repertoire to host mHAg, without alteration of the repertoire for H-2 and Mls-1a Ag; and 4) is associated with an active suppression and with a permanent presentation of at least two mHAg responsible for GVHR mortality.     

Electron microscopic observations of the anterior pituitary gland. Part I. The neurons in the "transitional zone" of the anterior pituitary gland

Since [Westlud, K.N., Chils, G.V., 1982. Localization of serotonin fibers in the rat adenohypophysis. Endocrinology 111, 1761-1763] initially identified the serotonin nerve fibers in the anterior pituitary gland, attention has been paid to the rostral zone of the anterior lobe into which nerve fibers enter and subsequently spread to deeper regions of the lobe. The rostral zone is the trifurcated junction of the partes tuberalis, intermedia and distalis, and has the important role(s) for hormone secretion via the "transitional zone" [Sato, G, Shirasawa, N, Sakuma, E, Sato, Y, Asai, Y, Wada, I, Horiuchi, O, Sakamoto, A, Herbert, DC, Soji, T, 2005a. Intercellular communications within the rat anterior pituitary. XI: An immunohistochemical study of distributions of S-100 positive cells in the anterior pituitary of the rat. Tissue and Cell 37, 269-280.]. The objective of this study was to focus on the ultrastructure of this "zone." All of the animals studied were fixed by perfusion with glutaraldehyde via the left ventricle of the heart and examined by electron microscopy. In the "transitional zone," a cluster of neuronal elements was observed between the folliculo-stellate cell-rich area and the anterior lobe. This cluster consisted of myelinated fibers, unmyelinated fibers, neuroendocrine fibers, large cells, and supporting cells. The large cells were perikarya of neurons which made a "ganglion-like" structure with associated satellite cells. Agranular, folliculo-stellate cells were intermingled among the elements. This is the first report that neuronal elements form clusters in the "transitional zone." A relationship of the unmyelinated and neuroendocrine fibers in the basal layer and in the "transitional zone" is discussed.     

Dynamics of connexin 43 levels and distribution in the mink (Mustela vison) anterior pituitary are associated with seasonal changes in anterior pituitary prolactin content

Because in mammals the anterior pituitary lacks innervation, we investigated whether gap junctions established between selected cells within the gland are part of an intrapituitary mechanism to ensure physiological synchronization of cells involved in the control of hormone secretion. We report here the dynamics of anterior pituitary connexin 43 (Cx43)-gap junctions throughout the mink (Mustela vison) annual reproductive cycle and its relationship with the anterior pituitary prolactin (PRL) content that parallels variations in serum PRL levels documented in the literature. We found that PRL anterior pituitary levels were maximal in spring and during lactation and that they were minimal in autumn and winter. Anterior pituitary Cx43 levels were maximal during periods of high PRL secretion. During these periods, Cx43-positive gap junctions localized to stellate-shaped cells occupying the center of anterior pituitary follicles and to the rounded cells occupying the remaining follicles. Connexin 43-positive gap junctions were also observed between adjacent follicles. During periods of low PRL pituitary content, Cx43-positive gap junctions localized to the stellate cells but not to the cells of the remaining follicles. Moreover, Cx43 labeling was undetected between adjacent follicles. To assess between which cells within the mink anterior pituitary the Cx43 gap junctions were established, the different anterior pituitary cell populations were separated by a discontinuous Percoll gradient, and Western blot analyses of each cell population using Cx43 antibodies were performed. The immunoblots showed a Cx43 immunoreactive band associated with the cell layer enriched in S-100-positive, stellate-shaped cells. The result was confirmed by fluorescence microscopy studies that showed that Cx43-mediated gap junctions were established preferentially between the cultured S-100-positive, elongated cells. The results show that in mink stellate cells, the junctional machinery associated with the Cx43 protein varies in synchrony with the anterior pituitary PRL content throughout the mink annual reproductive cycle. It is suggested that the Cx43 gap junctions on the stellate cells play an important role in the synchronization of cellular activity within selected follicles of the anterior pituitary, thus contributing to the control of PRL secretion during the annual reproductive cycle.     

Effect of thymic humoral factor in vitro on human bone marrow and blood cells from B-, T- and null-cell acute lymphatic leukemia.

The nature of null-cell acute lymphatic leukemia (ALL) was investigated with the aid of a thymic humoral factor (THF), bone marrow cells, and a local xenogeneic graft-versus-host reaction (GVHR). Lymphocytes obtained from the blood and bone marrow of six children with T-cell ALL, five with null-cell ALL, one with perinatal B-cell ALL, one with acute myelocytic leukemia, and one with erythroleukemia were tested for membrane surface markers (E, EAC, and SM Ig); functional activity of T cells was tested by a local GVHR. All of the specimens obtained at the initial presentation showed a lack of functional activity of the lymphocytes. Incubation of null cell and acute myelocytic leukemia (AML) bone marrow with THF led to the acquisition of the characteristics of functional, immunocompetent T cells. No such effect was seen when the bone marrow of T-cell ALL and peripheral blood lymphocytes of B-cell perinatal ALL were incubated with THF. This study demonstrates that the null cell in ALL bone marrow can be differentiated into a T cell whereas the stem cell in AML bone marrow constitutes a pluripotential undifferentiated cell which also can mature into a T cell.     

Suppression of interferon synthesis during the "graft-versus-host" reaction in F1(CBAXC57BL/6) mice]

The development of the graft-versus-host reaction (GVHR) in the F1(1CBA X C57BL/6 hybrid mice after the transplantation of spleen cells from the C57BL/6 parent donor resulted in a strong inhibition of the serum interferon production induced by the intraperitoneal injection of the Newcastle disease virus. In vitro with the mouse bone marrow cells during the development of the GVHR the interferon response was first reduced and then disappeared completely. The described phenomenon could therefore serve as an index of the development of the GVHR.     

Differences in thymus dependency among the alloreactive T-cell subpopulations in their development

Effects of thymectomy at various times after birth (Tx-1, Tx-3, Tx-7, Tx-14) on mixed lymphocyte reaction (MLR), cell-mediated cytotoxicity (CMC), and graft-versus-host reaction (GVHR) were examined by experiments with spleen cells obtained at 8 weeks of age. All of MLR, CMC, and GVHR were detected in spleen cells of Tx-14 mice. However, the ability of spleen cells to induce GVHR was abolished by thymectomy at 7 days after birth. On the other hand, MLR and CMC were not affected in such mice. In Tx-1 or Tx-3 mice, only MLR was detected in spleen cells. These results suggest that thymus dependency of T cells responsible for MLR are lower in their maturation than those for CMC and that thymus dependency of T cells responsible for GVHR are the highest among these T-cell subpopulations.     

GVHR elicited by products of class I or class II loci of the MHC: analysis of the response of mouse T lymphocytes to products of class I and class II loci of the MHC in correlation with GVHR-induced mortality, medullary aplasia, and enteropathy

A lethal graft-vs-host reaction (GVHR) was elicited by the injection into irradiated (700 rad) mice, reconstituted with T-depleted bone marrow cells (BM), of T lymphocytes incompatible for different loci of the major histocompatibility complex (MHC). The number of T cells needed to kill more than 50% of the recipients by day 40 was about 10(6) for GVHR elicited across the product of the K, D, or E locus, but about 10(5)--10--fold less-when the A locus was involved. The mortality was associated with a medullary aplasia in all strain combinations, but enteropathy was observed only in GVHR elicited by the products of class II, and not class I, loci. Mortality and medullary aplasia were diminished or absent in recipients reconstituted with BM cells from T cell donors instead of cells of the host genotype, which suggests a direct (cytolytic) T-hematopoietic cell interaction. Lymphoproliferation was evident within the host spleen and lymph node 5 days after injection of T lymphocytes incompatible for class II but not class I loci. Spleens from mice suffering from a lethal GVHR were examined by culture in limiting dilution to evaluate the frequency of anti-host T cells and to derive anti-host T cell clones and lines, whose properties were explored. In the GVHR elicited across the A or E region of the MHC, examined between days 7 and 19, a high frequency (10(-2] of anti-host cells was observed. The polyclonal cell lines isolated (16) all displayed MLR responsiveness, antigen-driven IL 2 production, and cytolysis for LPS blasts of the host genotype. However, among 13 clones isolated, two categories were observed: Lyt-2-, which were MLR responders and IL 2 producers (four of 13), and Lyt-2+, which were cytolytic but neither MLR responders nor IL 2 producers (nine of 13). In the GVHR elicited by the K or D region, examined between days 7 and 90, the frequency of anti-host cells was low (10(3) to 10(4], with a tendency to decrease during the progression of the disease. The lines (11) or clones (26) isolated from different mice were all Lyt-2+ and strongly cytolytic but proliferated poorly and produced no IL 2 in MLR. These findings suggest that the Lyt-2+ lymphocytes, recognizing the products of the class I loci, function in vivo without proliferation and without requiring helper T cells. Cell lines specific for class I or class II loci of the MHC produced interferon and colony-stimulating factors.     

Alloreactive lymphocytes from T cell receptor (beta-chain) transgenic mice do not mediate a graft-versus-host reaction.

The injection of mature T cells into a tolerant or immunocompromised allogeneic host animal produces a graft versus host response (GVHR) that can result in splenomegaly, immunosuppression and death of the host animal. We demonstrate here that lymphocytes from T cell receptor beta-chain (TCR-beta) transgenic mice, in which the expression of the transgene inhibits endogenous beta- and gamma-gene rearrangements and thus causes abnormal T cell development, are unable to mediate a GVHR. The GVHR was measured after the injection of lymphocytes from transgenic mice into normal F1 mice and also after transplantation of bone marrow and lymphocytes from transgenic mice into lethally irradiated F1 recipients. In both systems, cells from transgenic mice failed to produce a significant GVHR. Cells from the transgenic mice were able to recognize the foreign histocompatibility Ag of the host in vitro and in vivo although the transgenic mice rejected skin grafts more slowly than controls. Thus, lymphocytes from transgenic mice were unable to produce a GVHR despite the presence of alloreactive T cells. These results suggest that lymphocytes from TCR-beta transgenic mice fail to mediate a GVHR either because lymphocytes with a single transgenic TCR-beta chain have a limited ability to recognize allogeneic cells in vivo or because the transgenic mice lack lymphocyte subsets that are important for the mediation of a GVHR.     

Transplantation immunology of the anterior chamber of the eye. II. Immune response to allogeneic cells.

The mechanism by which the anterior chamber of the eye extends immunologic privilege to allogeneic donor tissues has been studied in inbred rats. Inoculation of allogeneic lymphoid cells into the anterior chamber demonstrated that although the site lacks a lymphatic drainage, the afferent limb of the immunologic reflex arc is intact because the recipient can recognize and mount a specific immune response. In addition, host immunity was able to express itself within the anterior chamber when induced systemically, indicating that the efferent limb of the reflex arc is also intact. Therefore, it is suggested that the unique immunologic features of the anterior chamber may result from the obligate intravenous presentation of graft antigen to the host's systemic immunologic apparatus, a route that prejudices the host's response in the direction of tolerance and/or enhancement rather than cell-mediated, tissue destructive immunity.     

Induction of refractoriness to thyrotropin stimulation in cultured thyroid cells. Dependence on new protein synthesis.

Cultured dog thyroid cells were used to investigate the mechanism by which previous exposure to thyrotropin (TSH) induces refractoriness to further TSH stimulation of cellular adenosine 3'-5'-monophosphate (cAMP). Refractoriness of the cAMP response to TSH could not be overcome by exposure of the cells to supramaximal stimulatory concentrations of TSH. Although an unknown factor present in human and fetal calf serum was found to inhibit the thyroid cell cAMP response to TSH, this factor could not account for refractoriness because refractoriness could be induced in the absence of serum. Induction of thyroid refractoriness did not appear to be related to cellular concentrations of cyclic AMP, because equal refractoriness was produced by TSH alone or TSH plus the phosphodiesterase inhibitor, 3-isobutyl-1-methyl xanthine. In addition, preincubation of thyroid cells in 10(-4) M cAMP did not result in subsequent refractoriness. Recovery from the refractory process required almost 24 h. Short term (15 min) stimulation with TSH did not produce thyroid cell refractoriness, and reversal of the stimulation was obtained by thorough washing of the cells. Long term TSH stimulation (16 h), however, resulted in both supramaximal cAMP response to TSH, and inclusion of TSH together with cycloheximide did not produce refractoriness. Cyclic AMP phosphodiesterase activity in thyroid cell homogenate was unaltered by TSH or dibutyryl cyclic AMP pretreatment of the cells for up to 24 h, or cycloheximide for up to 4 h. In contrast, TSH-stimulated, but not F--stimulated, adenylate cyclase activity was reduced in thyroid cell homogenates after preincubation of the cells in TSH. Refractoriness to TSH stimulation was not associated with an alteration in the binding of 125I-TSH to cultured thyroid cells. These studies suggest that the thyroid cAMP response to TSH is modulated by an inhibitory mechanism dependent upon new protein synthesis. TSH stimulation itself increases the degree of this inhibition through a mechanism not involving cAMP.