Salmonella-induced immune response reduces recurrence and tumor dissemination in preclinical melanoma model.

Localized melanoma is easy to remove by surgery, resulting in a high five-year relative survival rate. However, when disseminated the disease management is challenging. The use of immunotherapies, such as anti-checkpoint monoclonal antibodies, has improved treatment options but still only a small percentage of patients responds to these expensive treatments. In this work, we apply a bacteria-based immunotherapy using LVR01, an attenuated Salmonella enterica serovar Typhimurium, as neoadjuvant therapy one week before surgery in a preclinical disseminated murine melanoma model. LVR01 administration resulted in tumor growth retardation prior to tumor resection, due to a rapid upregulation of inflammatory genes in the tumor microenvironment. As a consequence, cell infiltration increased, particularly neutrophils, macrophages and NK cells, being the latter involved in Salmonella anti-tumor activity. Besides, tumor-draining lymph node infiltration is characterized by reinvigorated CD4+ and CD8+ lymphocytes. Induced immune response could account for the prevention or delay of tumor recurrence and appearance of metastasis, resulting in a prolonged overall survival after surgery. Furthermore, upon rechallenge mice show partial protection, suggesting the existence of specific memory against melanoma. We propose that neoadjuvant LVR01 treatment could represent an interesting inexpensive alternative that may ease tumor resection, while preventing tumor recurrence in patients with melanoma.

Integrating Adjuvant Radiation with Post-Neoadjuvant Therapies in Early Breast Cancer.

PURPOSE OF REVIEW: Because of the strong prognostic value of pathologic complete response (pCR) in early breast cancer (EBC), patients who fail to achieve this outcome have increasingly been eligible to a new treatment modality, namely post-neoadjuvant systemic therapy (PNT). However, adjuvant radiation therapy (RT) retains a crucial role in EBC, and also needs to be timely administered to patients. To address how modern PNT optimally integrates with adjuvant RT is therefore the purpose of this review. RECENT FINDINGS: How PNT administration optimally integrates with adjuvant RT has varied depending on the type of systemic therapy employed. The introduction of novel "targeted" agents has created new challenges, as for many of them limited information is available on the feasibility of concurrent systemic and RT administration or their optimal sequencing. PNT and RT are both of utmost importance to the management of EBC and need to be timely and safely administered to patients. The optimal strategy to integrate these modalities may vary according to the type of PNT agent and other factors.

Real-world data on neoadjuvant endocrine therapy in ER-positive/HER2-negative breast cancer.

PURPOSE: Neoadjuvant endocrine therapy (NET) has been shown to be effective in ER-positive/HER2-negative breast cancer in clinical trials. However, adoption in clinical practice is still limited. Real-world data may provide useful insights into effectiveness, toxicities and quality of care, potentially rendering clinical trial results to the real-world setting. Our purpose was to report real-world data of a cohort of postmenopausal patients submitted to NET. METHODS: This prospective cohort study evaluated 146 postmenopausal female patients with ER-positive/HER2-negative breast cancer treated with NET at three tertiary hospitals between 2016 and 2018. Clinicopathological information were collected prospectively. Preoperative Endocrine Prognostic Index (PEPI) score was calculated for tumors submitted to at least 16 weeks of NET. RESULTS: Median age was 67 years old, and 87.8% had stage I-II disease. Most tumors had histological grade II (76.1%). Median pretreatment Ki67 expression was 10%. Aromatase inhibitor was used in 99.5% of patients, and median treatment duration was 21.0 weeks. No tumor progressed during NET. Breast-conserving surgery was performed in the majority of patients (63.0%), as well as sentinel lymph-node biopsy (76.7%). Pathological complete response rate was 1.0%. 43 patients (29.5%) had PEPI score 0, and 26% had PEPI scores 4-5. Posttreatment Ki67 median expression was 3.0%, and only five tumors (3.4%) showed marked increase in Ki67 expression during treatment. Seven patients (4.8%) had HER2-positive residual disease, and were treated with adjuvant chemotherapy plus trastuzumab. CONCLUSIONS: Our real-world data shows that NET is effective and safe in postmenopausal patients with ER-positive/HER2-negative breast cancer. Postmenopausal status and low-risk luminal tumor features (luminal A-like) should be used as selection criteria to ensure the best results with NET.