Purpose: We sought to determine the long-term (median follow-up, 7.5 years) predictive power of human MutS homologue 2 (MSH2) immunohistochemical expression in patients who enrolled in the International Adjuvant Lung Trial.Experimental design: We tested the interaction between MSH2 and the allocated treatment (chemotherapy versus observation) in a Cox model adjusted on clinicopathologic variables. The significance level was set at 0.01.Results: MSH2 levels were low in 257 (38%) and high in 416 (62%) tumors. The benefit from chemotherapy was likely different according to MSH2 (interaction test, P = 0.06): there was a trend for chemotherapy to prolong overall survival when MSH2 was low [hazard ratio (HR), 0.76; 95% confidence interval (95% CI), 0.59-0.97; P = 0.03], but not when MSH2 was high (HR, 1.12; 95% CI, 0.81-1.55; P = 0.48). In the control arm, the HR was 0.66 (95% CI, 0.49-0.90; P = 0.01) when MSH2 was high. When combining MSH2 with excision repair cross-complementing group 1 (ERCC1) into four subgroups, the benefit of chemotherapy decreased with the number of markers expressed at high levels (P = 0.01). A similar decrease was noted when combining MSH2 and P27 (P = 0.01). Chemotherapy prolonged overall survival in the combined low MSH2/low ERCC1 subgroup (HR, 0.65; 95% CI, 0.47-0.91; P = 0.01) and in the combined low MSH2/low P27 subgroup (HR, 0.65; 95% CI, 0.46-0.93; P = 0.01).
The rule of thumb of chemotherapy - avoiding first trimester exposure and starting therapy in the second trimester - can be considered applicable for classic agents that are used in managing pregnant breast cancer patients. Anthracycline-based regimens are considered the standard of care in managing BCP. Recently, a growing amount of data suggests the safety of taxanes during pregnancy. Pregnancy in cancer patients should be considered as "high risk": once the systemic treatment is initiated, regular fetal monitoring is highly recommended. Emerging data are available on the relative long-term safety secondary to anthracycline exposure during pregnancy. A continued monitoring of the health of individuals with prenatal exposure to chemotherapy into adulthood is recommended for the possible occurrence of long-term side effects.
The primary cellular mechanism responsible for osteolytic bone metastases is osteoclastic activation. Preclinical models have shown that breast cancer cells can produce parathyroid hormone-related protein (PTHrP), and other osteolytic molecules, which stimulate excessive osteoclastic bone resorption and establishment of osteolytic lesions. It has been shown that PTHrP by itself cannot directly induce osteoclastic activation, but it mediates its effect through the transactivation of RANK-ligand (RANKL) gene on stromal and osteoblastic cells. Accordingly RANKL up-regulation has been considered as a prerequisite in virtually all conditions of cancer induced bone destruction. Hence, therapeutic targeting of RANKL seems to be a rational approach to treat or even to prevent the process of bone metastases. In this review, we will focus on the unique patho-physiological aspects related to the evolution of bone metastases in breast cancer, emphasizing the pivotal role of RANKL and some other key molecules in osteoclastic bone resorption. We will discuss the therapeutic interventions using bisphosphonates and RANKL inhibitors in patients with bone metastases and the outcome of this novel approach.
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