Our followup study of 48 patients with primary aldosteronism concerns the results of 2 different operative methods. After preoperative localization of the unilateral solitary tumor 22 patients underwent unilateral adrenalectomy and 26 underwent enucleation of aldosterone-producing adenoma. Both operative methods improved hypertension, hypokalemia, the low urinary sodium-to-potassium ratio, suppressed plasma renin activity, high plasma aldosterone concentration, high urinary aldosterone excretion and high urinary kallikrein excretion in similar orders of magnitude for 5 years. Levels of plasma cortisol and plasma adrenocorticotropic hormone following respective operations were also identical. Five years postoperatively, ambulation and furosemide administration under low sodium diet stimuli remarkably enhanced plasma renin activity and plasma aldosterone concentration in the aldosterone-producing adenoma enucleation group (p < 0.001), almost similar to that of normal subjects but increment magnitudes were slight (p < 0.05 to < 0.01) in the adrenalectomy group. Preoperatively, angiotensin II infusion failed to increase plasma aldosterone concentration in patients with primary aldosteronism. After respective operations, responses of plasma aldosterone concentration to angiotensin II infusion and of plasma cortisol to adrenocorticotropic hormone administration in the aldosterone-producing adenoma enucleation group were more sensitive than those in the adrenalectomy group. There was no remission of recurrent hyperaldosteronism in either group throughout the study. These results suggest that angiotensin II induces aldosterone release by an activation of tumor uninvolved cortical cells and that the enucleation of aldosterone-producing adenoma is more preferable than unilateral adrenalectomy.
The IL12RB2 gene acts as a tumor suppressor in human B cell malignancies. Indeed, Il12rb2 knockout (KO) mice develop spontaneously B cell tumors, but also lung epithelial tumors. This latter phenotype may be related to (i) impairment of host IL-12-mediated immunosurveillance and/or (ii) IL-12 inability to inhibit directly the growth of IL-12 unresponsive malignant cells. To address this issue, we transplanted IL-12R ؉ B16 melanoma cells into syngeneic Il12rb2 KO mice with the following rationale: (i) these mice have severe defects in IFN-␥ production, as well as in cytotoxic T lymphocyte and natural killer cell cytotoxicity, and (ii) they produce but do not use IL-12 that can potentially bind to and target tumor cells only. Il12rb2 KO mice displayed higher endogenous serum levels of IL-12 and developed smaller B16 tumors than WT animals. These tumors showed reduced proliferation, increased apoptosis, and defective microvessel formation related to down-regulated expression of a set of proangiogenic genes previously unrelated to IL-12. Such effects depended on direct activity of endogenous IL-12 on tumor cells in KO mice, and hydrodynamic delivered IL-12 caused further reduced tumorigenicity of B16 cells in these mice. A previously undescribed mechanism of the IL-12 antitumor activity has been here identified and characterized.angiogenesis ͉ tumor immunology ͉ cytokines I nterleukin 12 is a heterodimeric cytokine bridging innate and adaptive immunity (1). IL-12, which belongs to a family of structurally related cytokines including IL-23 and IL-27 (2, 3), is formed by the IL12p35 and IL12p40 subunits (4) and binds to the IL-12R, composed of the 1 and the 2 chains. Both chains are needed for high affinity binding of the cytokine and initiation of signal transduction (5, 6). IL12p40 associates with the p19 subunit to form IL-23, which binds to a receptor composed of IL12R1 and IL-23R (2, 3). Therefore, the IL12p35 and the IL12R2 subunits are unique components of IL-12 and IL-12R, respectively. IL-12, which is produced predominantly by antigen-presenting cells, drives T helper (Th1) responses, enhances T and natural killer (NK) cell cytotoxicity, and induces IFN-␥ production by T and NK cells (4,[7][8][9]. In addition, we have shown that IL-12 contributes to the regulation of normal human B cell function through stimulation of IgM synthesis and IFN-␥ production (10).IL-12 exerts antitumor activity through IFN-␥-dependent and independent mechanisms (11-15), which include modulation of the immune system and antiangiogenesis (16)(17)(18). We have recently demonstrated that the IL12RB2 gene acts as a tumor suppressor in human chronic B cell malignancies (14) and, accordingly, that aging IL12rb2 knockout (KO) mice develop spontaneously B cell tumors. The same mice showed high incidence of lung epithelial tumors. This latter finding may be related to reduced immune surveillance, because of their deficient T and NK cell-mediated cytotoxicity (19), Th2-biased T cell differentiation (20), and/or lack of IL-12-mediated dir...
To understand the mechanisms underlying bone marrow metastasis precisely, we established the highly metastatic 4T1E/M3 murine breast cancer cell line. 4T1 murine breast cancer cells were transfected with the neomycin resistance gene, selected in G418, intravenously injected into mice, and harvested from bone marrow. By repeating this protocol three times, we established the 4T1E/M3 cells. The clonality of 4T1E/M3 cells was markedly high confirmed by genomic southern analysis using neo-gene probe. When tissues harvested from mice after intravenous injection of 4T1E/M3 cells were examined histologically, markedly enhanced bone marrow metastasis was observed; 77% of spines from 4T1E/M3-injected mouse showed metastasis as compared to 14% metastasis seen with the parent cells. In vitro, 4T1E/M3 cells attached more strongly to the plastic plate and to bone marrow-derived endothelial cells. DNA micro arrays, real time RT-PCR and FACS analyses revealed that the expression of ICAM-1 and beta2 integrin was upregulated in 4T1E/M3 cells at both the mRNA and cell surface protein levels. 4T1E/M3 cells also showed greater anchorage-independent proliferation in soft agar, and migrated markedly faster than the parent cells in wound healing assays. Anti-ICAM-1 antibodies strongly inhibited both the colony formation and the migration activity of 4T1E/M3 suggesting the importance of the role of ICAM-1. Our newly established highly metastatic 4T1E/M3 cells may provide a potentially powerful tool to study the molecular mechanisms of bone marrow metastasis and to identify new molecular targets for therapeutic interventions.
IL-12 is an excellent candidate for the treatment of cancer due to its ability to drive strong antitumor responses. Recombinant IL-12 protein is currently used in cancer patients; however, systemic expression of rIL-12 presents disadvantages including cost and dose limitation due to its toxicity. In this study, we used hydrodynamic shear of cDNA as a tool to achieve systemic expression of IL-12. We found that sustained but toxic levels of serum IL-12 could be generated in 6- to 7-wk-old B6 mice after a single injection of the cDNA. Unexpectedly, we observed that when IL-12 cDNA is coinjected with IL-18 cDNA, IL-12 antitumor activity was maintained, but there was a significant attenuation of IL-12 toxicity, as evidenced by a greater survival index and a diminution of liver enzymes (ALT and AST). Interestingly, after IL-12 plus IL-18 cDNA administration, more rapid and higher IL-10 levels were observed than after IL-12 cDNA treatment alone. To understand the mechanism of protection, we coinjected IL-12 plus IL-10 cDNAs and observed an increase in survival that correlated with diminished serum levels of the inflammatory cytokines TNF-α and IFN-γ. Confirming the protective role of early IL-10 expression, we observed a significant decrease in survival in IL-10 knockout mice or IL-10R-blocked B6 mice after IL-12 plus IL-18 treatment. Thus, our data demonstrate that the high and early IL-10 expression induced after IL-12 plus IL-18 cDNA treatment is critical to rapidly attenuate IL-12 toxicity without affecting its antitumor capacity. These data could highly contribute to the design of more efficient/less toxic protocols for the treatment of cancer.
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