Reduced serum levels of anti-Müllerian hormone in females with inherited bone marrow failure syndromes.

CONTEXT: Previously, reduced levels of anti-Müllerian hormone (AMH), a circulating marker of ovarian reserve, were found in females with Fanconi anemia (FA). FA, dyskeratosis congenita (DC), and Diamond-Blackfan anemia (DBA) are inherited bone marrow failure syndromes (IBMFS) associated with high risks of bone marrow failure, leukemia, and solid tumors. OBJECTIVE: The objective of the study was to assess AMH levels in females with DC or DBA. DESIGN AND SETTING: This observational study used the National Cancer Institute's inherited bone marrow failure syndrome cohort at the National Institutes of Health Clinical Center. PARTICIPANTS: The study included females with DC, unaffected female relatives of patients with DC, females with DBA, unaffected female relatives of patients with DBA, and unrelated healthy female volunteers younger than 41 years of age. MAIN OUTCOME MEASURE: Serum AMH levels were measured. RESULTS: Females with DC had significantly lower levels of AMH (median 0.55 ng/mL) compared with unaffected relatives (median 2.28 ng/mL, P = .004) or unrelated healthy volunteers (median 2.69 ng/mL, P = .005). Females with DBA showed a nonsignificant trend for lower levels of AMH (median 0.89 ng/mL) compared with unaffected relatives (median 1.71 ng/mL, P = .21) or unrelated healthy volunteers (P = .11). Patients with DC and DBA had significantly higher levels of AMH (P = .013, P = .003) compared with FA (median 0.05 ng/mL). CONCLUSIONS: Our findings suggest that women with IBMFS have lower levels of AMH than unaffected women. This AMH deficiency could be a primary ovarian defect or a consequence of the pathophysiology of the syndromes. Additional studies of AMH and ovarian function in women with IBMFS are warranted to better understand the underlying biology.

Prediagnostic circulating anti-Müllerian hormone concentrations are not associated with prostate cancer risk.

Despite considerable research, the pathogenesis of prostate cancer remains poorly understood. Meanwhile, PSA testing has shifted prostate cancer case populations for study to include a greater proportion of asymptomatic and indolent disease. Thus, efforts to identify prostate cancer biomarkers-particularly for aggressive disease-are required to elucidate pathogenesis and aid screening efficacy. Current evidence suggests that decreased circulating concentrations of the testis-derived, TGFß family peptide hormone-anti-Müllerian hormone (AMH)-may be associated with prostate cancer pathogenesis. To test this hypothesis, we measured AMH concentrations in prediagnostic (cohort baseline) sera using the Beckman Coulter AMH Gen II ELISA in 1,000 cases and 1,000 controls nested within the Prostate, Lung, Colorectal, and Ovarian (PLCO) Cancer Screening Trial. Controls were frequency matched to cases on age at entry, enrollment year, and years of follow-up. Unconditional logistic regression models, adjusted for age at randomization, were used to estimate odds ratios (ORs) and 95% confidence intervals (95% CI). We found that prediagnostic serologic AMH concentrations were not significantly associated with total (ORQ4 vs. Q1 = 1.15; 95% CI, 0.89-1.48; Ptrend = 0.13), aggressive (ORQ4 vs. Q1 = 1.14; 95% CI, 0.80-1.63; Ptrend = 0.51), or nonaggressive (ORQ4 vs. Q1 = 1.22; 95% CI, 0.91-1.63; Ptrend = 0.07) prostate cancer risks. Different definitions of aggressive disease did not meaningfully alter these results. Despite in vitro studies linking AMH to prostate cancer, this first analysis of prediagnostic, circulating AMH concentrations in men provides no evidence for an association with prostate cancer risk.

Does loop electrosurgical excision procedure of the uterine cervix affect anti-Müllerian hormone levels?

BACKGROUND: A delayed time to pregnancy was recently reported for women who had a loop electrosurgical excision procedure (LEEP) to remove cervical intraepithelial neoplasia (CIN) grade 2 or 3. The objective of the current study was to determine if treatment of CIN with LEEP is associated with decreased levels of anti-Müllerian hormone (AMH), a marker of ovarian reserve. METHODS: AMH levels were measured in 18 women treated with LEEP and 18 age-matched controls, who had colposcopy only and did not require LEEP. Cases and controls had their blood drawn at study entry time zero and again 6 months later. RESULTS: The mean AMH level decreased significantly from baseline to follow-up; however, no significant differences were observed when stratifying by LEEP status, suggesting that both groups experienced a similar decrease in AMH levels during the follow-up period. Although women treated with LEEP had lower overall AMH levels than controls at both baseline and follow-up, these differences were not statistically significant. CONCLUSION: Overall, the delayed time to pregnancy observed in women treated with LEEP is likely not due to a LEEP-associated decrease in ovarian reserve as measured by AMH; thus, other mechanism are responsible for the delayed time to pregnancy associated with LEEP.

Anti-Müllerian hormone deficiency in females with Fanconi anemia.

CONTEXT: In females with Fanconi anemia (FA), infertility is often accompanied by diminished ovarian reserve and hypergonadotropic amenorrhea before the age of 30 years, suggesting primary ovarian insufficiency (POI). POI is typically diagnosed only after perimenopausal symptoms are observed. OBJECTIVE: The objective of the study was to assess whether serum anti-Müllerian hormone (AMH) levels can serve as a cycle-independent marker for the diagnosis of POI in patients with FA. DESIGN AND SETTING: This observational study used the National Cancer Institute's inherited bone marrow failure syndrome cohort at the National Institutes of Health Clinical Center. PARTICIPANTS: The study included 22 females with FA, 20 unaffected female relatives of patients with FA, and 21 unrelated healthy females under 41 years of age. MAIN OUTCOME MEASURE: Serum AMH, a marker of ovarian reserve, was measured in all participants. RESULTS: Females with FA had very low AMH levels (median 0.05 ng/mL; range 0-2.32 ng/mL; P < .001) when compared with unaffected relatives (median 2.10 ng/mL; range 0.04-4.73 ng/mL) and unrelated healthy females (median 1.92 ng/mL; range 0.31-6.64 ng/mL). All patients with FA older than 25 years of age were diagnosed with POI and had undetectable AMH levels. CONCLUSIONS: AMH deficiency appears to be a shared trait across this heterogeneous FA cohort. Substantially reduced AMH levels in females with FA suggest a primary ovarian defect associated with reduced fertility. Measurement of AMH at the time of FA diagnosis and subsequent monitoring of AMH levels at regular intervals may be useful for the timely management of complications related to POI such as subfertility/infertility, osteoporosis, and menopausal symptoms.

A multivalent vaccine for type 1 diabetes skews T cell subsets to Th2 phenotype in NOD mice.

Previous studies by our group, using an experimental autoimmune thyroiditis (EAT) model in Strain 13 inbred guinea pigs, resulted in T cell-mediated delayed hypersensitivity; however, autoantibodies proved not to be cytotoxic to thyroid epithelial cells in the presence or absence of complement proteins. Albeit, T cell-mediated lymphocyte cytotoxicity began to diminish sharply concomitantly with increasing titers of circulating autoantibodies, indicating a skewing of the self-reactive response and amelioration of the EAT. Furthermore, immunization of guinea pigs with thyroglobulin in incomplete Freund's adjuvant (IFA) generated a high titer of antithyroglobulin antibodies and proved to inhibit thyroiditis. These observations indicated that the shift in the immune response from Th1 to Th2 and the production of antibodies were likely responsible for ameliorating EAT. Based upon these results, we extrapolated our studies to design a multivalent vaccine, which shows promise in preventing/reversing T1D in NOD mice. A small pilot study was conducted in which a total of 34 mice, 20 non-immunized controls and 14 immunized with syngeneic islet lysate, were monitored for mean day to diabetes for a total of 28 weeks. Immunization of NOD animals with syngeneic islet lysates resulted in a significant delay in diabetes onset (P < 0.001) as compared to non-immunized controls. To further assess the vaccine's efficacy, robustness, and delay of disease, a large-scale experiment was conducted and monitored for 32 weeks using 106 mice, 64 non-immunized controls and 42 immunized with syngeneic islet lysate. At the end of the study, 90% of the non-immunized group developed diabetes, while less than 25% of the immunized group became diabetic (P < 0.0001). The protective effect, as a result of vaccination, correlated with an increase in the levels of IL-10 and IL-4 cytokines as well as a skewing to Th2-dependent isotype antibodies in serum. Strikingly, adoptive transfer of spleen cells from immunized animals into NOD.scid recipients provided protection against transfer of diabetes by diabetogenic spleen cells. The results of this study provide evidence that vaccination with islet lysate leads to a Th2-dependent skewing of the immune response to islet beta cells as a possible mechanism of protection. This strategy may be implemented as a possible vaccination protocol for arresting and/or preventing T1D in patients.

FOXO3 programs tumor-associated DCs to become tolerogenic in human and murine prostate cancer.

The limited success of cancer immunotherapy is often attributed to the loss of antigen-specific T cell function in situ. However, the mechanism for this loss of function is unknown. In this study, we describe a population of tumor-associated DCs (TADCs) in both human and mouse prostate cancer that tolerizes and induces suppressive activity in tumor-specific T cells. In tumors from human prostate cancer patients and transgenic adenocarcinoma of the mouse prostate (TRAMP) mice, TADCs expressed elevated levels of FOXO3 and Foxo3, respectively, which correlated with expression of suppressive genes that negatively regulate T cell function. Silencing FOXO3 and Foxo3 with siRNAs abrogated the ability of human and mouse TADCs, respectively, to tolerize and induce suppressive activity by T cells. Silencing Foxo3 in mouse TADCs was also associated with diminished expression of tolerogenic mediators, such as indoleamine-2,3-dioxygenase, arginase, and TGF-ß, and upregulated expression of costimulatory molecules and proinflammatory cytokines. Importantly, transfer of tumor-specific CD4+ Th cells into TRAMP mice abrogated TADC tolerogenicity, which was associated with reduced Foxo3 expression. These findings demonstrate that FOXO3 may play a critical role in mediating TADC-induced immune suppression. Moreover, our results identify what we believe to be a novel target for preventing CTL tolerance and enhancing immune responses to cancer by modulating the immunosuppressive activity of TADCs found in the tumor microenvironment.

Redox modulation protects islets from transplant-related injury.

OBJECTIVE: Because of reduced antioxidant defenses, beta-cells are especially vulnerable to free radical and inflammatory damage. Commonly used antirejection drugs are excellent at inhibiting the adaptive immune response; however, most are harmful to islets and do not protect well from reactive oxygen species and inflammation resulting from islet isolation and ischemia-reperfusion injury. The aim of this study was to determine whether redox modulation, using the catalytic antioxidant (CA), FBC-007, can improve in vivo islet function post-transplant. RESEARCH DESIGN AND METHODS: The abilities of redox modulation to preserve islet function were analyzed using three models of ischemia-reperfusion injury: 1) streptozotocin (STZ) treatment of human islets, 2) STZ-induced murine model of diabetes, and 3) models of syngeneic, allogeneic, and xenogeneic transplantation. RESULTS: Incubating human islets with catalytic antioxidant during STZ treatment protects from STZ-induced islet damage, and systemic delivery of catalytic antioxidant ablates STZ-induced diabetes in mice. Islets treated with catalytic antioxidant before syngeneic, suboptimal syngeneic, or xenogeneic transplant exhibited superior function compared with untreated controls. Diabetic murine recipients of catalytic antioxidant-treated allogeneic islets exhibited improved glycemic control post-transplant and demonstrated a delay in allograft rejection. Treating recipients systemically with catalytic antioxidant further extended the delay in allograft rejection. CONCLUSIONS: Pretreating donor islets with catalytic antioxidant protects from antigen-independent ischemia-reperfusion injury in multiple transplant settings. Treating systemically with catalytic antioxidant protects islets from antigen-independent ischemia-reperfusion injury and hinders the antigen-dependent alloimmune response. These results suggest that the addition of a redox modulation strategy would be a beneficial clinical approach for islet preservation in syngeneic, allogeneic, and xenogeneic transplantation.

Redox modulation inhibits CD8 T cell effector function.

The evolutionary preservation of reactive oxygen species in innate immunity underscores the important roles these constituents play in immune cell activity and as signaling intermediates. In an effort to exploit these pathways to achieve control of aberrant immune activation we demonstrate that modulation of redox status suppresses cell proliferation and production of IL-2, IFN-gamma, TNF-alpha, and IL-17 in two robust CD8 T-cell-dependent in vitro mouse models: (1) response to alloantigen in an mixed leukocyte reaction and (2) CD8 T cell receptor transgenic OT-1 response to cognate peptide (SIINFEKL). To correlate these findings with cytotoxic lymphocyte (CTL) function we performed cytotoxicity assays and found that redox modulation diminishes the ability of alloantigen-specific and antigen-specific OT-1 CTLs to kill their corresponding antigen-expressing target cells. To further examine the mechanisms of redox-mediated repression of CTL target cell lysis, we analyzed the expression of the effector molecules IFN-gamma, perforin, and granzyme B and the degranulation marker CD107a (LAMP-1). In both models, redox modulation reduced the expression of these effector components by at least fivefold. These results demonstrate that redox modulation quells the CD8 T cell response to alloantigen and the T cell receptor transgenic CD8 T cell response to its cognate antigen by inhibiting proliferation, proinflammatory cytokine synthesis, and CTL effector mechanisms.