Background I-SPY 2 is a phase 2 standing multicenter platform trial designed to screen multiple experimental regimens in combination with standard neoadjuvant chemotherapy for breast cancer. The goal is to matching experimental regimens with responding patient subtypes. We report results for veliparib, a poly(ADP-ribose) polymerase (PARP) inhibitor, combined with carboplatin (VC). Methods Eligible women had ≥2.5 cm stage II/III breast cancer, categorized into 8 biomarker subtypes based on HER2, hormone-receptor status (HR) and MammaPrint. Patients are adaptively randomized within subtype to better performing regimens compared to standard therapy (control). Regimens are evaluated within 10 signatures, prospectively defined combinations of subtypes. VC plus standard therapy was considered for HER2-negative tumors and therefore evaluated in 3 signatures. The primary endpoint of I-SPY 2 is pathologic complete response (pCR). MR volume changes during treatment inform the likelihood that a patient will achieve pCR. Regimens graduate if and when they have a high (Bayesian) predictive probability of success in a subsequent phase 3 neoadjuvant trial within the graduating signature. Results VC graduated in triple-negative breast cancer with 88% predicted probability of phase 3 success. A total of 72 patients were randomized to VC and 44 to concurrent controls. Respective pCR estimates (95% probability intervals) were 51% (35%–69%) vs 26% (11%–40%). Greater toxicity of VC was manageable. Conclusion The design of I-SPY 2 has the potential to efficiently identify responding tumor subtypes for the various therapies being evaluated. VC added to standard therapy improves pCR rates specifically in triple-negative breast cancer.
Background I-SPY2, a standing, multicenter, adaptive phase 2 neoadjuvant trial ongoing in high-risk clinical stage II/III breast cancer, is designed to evaluate multiple, novel experimental agents added to standard chemotherapy for their ability to improve the rate of pathologic complete response (pCR). Experimental therapies are compared against a common control arm. We report efficacy for the tyrosine kinase inhibitor neratinib. Methods Eligible women had ≥2.5 cm stage II/III breast cancer, categorized into 8 biomarker subtypes based on HER2, hormone-receptor status (HR), and MammaPrint. Neratinib was evaluated for 10 signatures (prospectively defined subtype combinations), with primary endpoint pCR. MR volume changes inform likelihood of pCR for each patient prior to surgery. Adaptive assignment to experimental arms within disease subtype was based on current Bayesian probabilities of superiority over control. Accrual to experimental arm stop at any time for futility or graduation within a particular signature based on Bayesian predictive probability of success in a confirmatory trial. The maximum sample size in any experimental arm is 120 patients, Results With 115 patients and 78 concurrently randomized controls, neratinib graduated in the HER2+/HR− signature, with mean pCR rate 56% (95% PI: 37 to 73%) vs 33% for controls (11 to 54%). Final predictive probability of success, updated when all pathology data were available, was 79%. Conclusion Adaptive, multi-armed trials can efficiently identify responding tumor subtypes. Neratinib added to standard therapy is highly likely to improve pCR rates in HER2+/HR2212; breast cancer. Confirmation in I-SPY 3, a phase 3 neoadjuvant registration trial, is planned.
To better understand whether autoimmunity in Lyn-deficient mice arises from compromised central or peripheral B cell tolerance, we examined BCR signaling properties of wild-type and Lyn-deficient B cells at different stages of development. Wild-type mature follicular B cells were less sensitive to BCR stimulation than were immature transitional stage 1 B cells with regard to BCRinduced calcium elevation and ERK MAPK activation. In the absence of Lyn, mature B cell signaling was greatly enhanced, whereas immature B cell signaling was minimally affected. Correspondingly, Lyn deficiency substantially enhanced the sensitivity of mature B cells to activation via the BCR, but minimally affected events associated with tolerance induction at the immature stage. The effects of CD22 deficiency on BCR signaling were very similar in B cells at different stages of maturation. These results indicate that the Lyn-CD22-Src homology region 2 domain-containing phosphatase-1 inhibitory pathway largely becomes operational as B cell mature, and sets a threshold for activation that appears to be critical for the maintenance of tolerance in the B cell compartment. The Journal of Immunology, 2009, 182: 5382-5392. Bcell receptor hyperresponsiveness is associated with a breakdown in tolerance and the development of autoantibodies in several genetically modified mouse strains (1, 2). A good example of this is the Lyn-deficient mouse (3). Lyn is a Src family kinase (SFK) 3 that, like two other SFKs expressed by B cells, Blk and Fyn, phosphorylates ITAMs on BCR Ig␣/Ig chains following Ag binding (4 -6). Lyn also functions to phosphorylate ITIMs on inhibitory receptors that negatively regulate BCR signaling, including CD22 (5, 7-9), Fc␥RIIb (7, 8), and perhaps others (10 -13). In this way, Lyn facilitates recruitment of the Src homology region 2 domain-containing phosphatase-1 (SHP-1) and SHIP phosphatases to the plasma membrane, which downmodulate BCR signaling (5,8,9). In the absence of Lyn, BCR signaling is supported by Blk and Fyn, but inhibitory receptors are ineffective at down-regulating BCR signaling, thereby leading to BCR hyperresponsiveness (3).Lyn-deficient mice exhibit increased plasma cell numbers and serum Ig levels. Surprisingly, these mice also produce autoantibodies to nuclear Ags (4,14,15). Why elevated BCR signaling would lead to a loss of tolerance in lyn Ϫ/Ϫ mice is not entirely self-evident, because whereas BCR signaling drives activation of mature B cells, it also promotes tolerance-inducing mechanisms in immature B cells. For example, binding of Ag by immature B cells in the bone marrow (BM) induces expression of RAG 1 and 2, which can generate L chain rearrangement and thereby change the specificity of the BCR (receptor editing) (16 -18). Continued recognition of Ag by the BCR may induce apoptosis of self-reactive B cells (clonal deletion) (16). Therefore, genetic alterations that enhance BCR signaling should increase the sensitivity of immature B cells to self Ags, causing more thorough removal of autoreactive B...
Background: I-SPY 2 is a multicenter, phase 2 screening trial using adaptive randomization within biomarker subtypes to evaluate a series of novel agents/combinations when added to standard neoadjuvant therapy (paclitaxel q wk x 12, doxorubicin & cyclophosphamide q 2-3 wk x 4, T/AC) vs. T/AC (control arm) for women with high-risk stage II/III breast cancer. The primary endpoint is pathologic complete response (pCR) at surgery. Our goal is to identify/graduate regimens that have ≥85% Bayesian predictive probability of success (statistical significance) in a 300-patient biomarker-linked Phase 3 neoadjuvant trial. Experimental regimens can "graduate" in at least 1 of 10 possible signatures defined by hormone-receptor (HR) & HER2 status & MammaPrint (MP), with a maximum number of 120 total patients enrolled. We report final efficacy results of the oral PARP inhibitor veliparib (V, ABT-888) in combination with carboplatin (carbo), 1 of 7 experimental regimens evaluated in the trial to date. Methods: Women with tumors ≥2.5 cm by clinical exam and ≥2 cm by imaging are eligible for screening. Tumors that are MP low/HR+/HER2-are ineligible for randomization. MRI scans (baseline, 3 weeks after start of therapy, at completion of weekly T, and prior to surgery) were used in a longitudinal statistical model to improve the efficiency of adaptive randomization. V+carbo was assigned to HER2-tumors only, which limits its possible signatures to: all HER2-, HR+/HER2-, HR-/HER2-. For these 3 signatures we provide estimated pCR rates with associated 95% Bayesian probability intervals for V+carbo and concurrently randomized controls. Analysis is intent to treat with patients who switched to non-protocol therapy regarded as non-pCRs. For each signature we provide probabilities of superiority for V+carbo over control and Bayesian predictive probabilities of success in a neoadjuvant Phase 3 trial equally randomized between V+carbo and control. Results: When V+carbo met the 85% predictive probability criterion in HR-/HER2-and all HER2-, this regimen graduated and accrual to V+carbo was stopped. V+carbo was assigned to 72 patients, and there were 62 concurrently randomized controls (44 HER2-controls). The following table shows final results based on available pCR information. Two patients assigned to V+carbo withdrew consent during treatment and are not included in the table.
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