We examined the effects of a single exposure of high concentrations of sulfur dioxide (SO2) on the pulmonary epithelium in adult dogs over a period of several weeks. Mucociliary tracheal transport rates and alveolar clearance of 99mTc-labeled diethylene triamine pentacetate (99mTcO4-) were measured in vivo, before and immediately after inhalation of 100 ppm or 500 ppm SO2, and then weekly for 3-5 weeks. At the completion of the in vivo studies, tracheal epithelium was studied in Ussing chambers for bioelectric properties (short-circuited current, transepithelial potential difference), nonelectrolyte permeability for calculation of pore sizes, and changes in bioelectric properties following pharmacological manipulations. These tissues were then fixed for scanning electron microscopy studies. Additional dogs were sacrificed for microscopy studies at several time intervals to provide a histological basis for the altered mucociliary transport. We found that despite marked derangement of mucociliary transport caused by damage to the ciliated cells, recovery occurred over a period of several weeks, and alveolar permeability as assessed by the radioaerosol technique did not change. We concluded that the solubility of SO2 and perhaps a more severe damaging effect of SO2 specific on the ciliated cells might be the explanation for the observations.
Effects of sulfur dioxide on pore populations of canine tracheal epithelium
The bioelectric and barrier properties of the tracheal epithelium in nose-breathing dogs and in dogs that had been exposed for 75 min to compressed air or to two high concentrations of SO2 were measured and compared. We also studied tissues that had been treated with chloroform. Based on a model of restrictive diffusion we demonstrated heteropores (6 and 250 A) in the control tissues. Bioelectric changes due to 100-ppm SO2 were minimal. After exposure to 500 ppm SO2, adverse changes in the bioelectric properties were focal; they were marked in 8 out of 12 animals but were less striking in the other 4. Nonelectrolyte permeability increased with an increase in SO2 concentrations. Small pores were still present in the tissues severely affected by SO2 but they were absent in chloroform-treated tissues. Scanning electron microscopy of tissues from animals exposed to 500 ppm SO2 showed that in the same dog tissue appearance varied from normal to one of repair (normal bioelectric properties) or one of marked exfoliation of ciliated cells (abnormal bioelectric measurements).
Therapy of hormone receptor positive breast cancer (BCa) generally targets estrogen receptor (ER) function and signaling by reducing estrogen production or by blocking its interaction with the ER. Despite good long-term responses, resistance to treatment remains a significant issue, with approximately 40% of BCa patients developing resistance to ET. Mutations in the gene encoding ERα, ESR1, have been identified in BCa patients and are implicated as drivers of resistance and disease recurrence. Understanding the molecular consequences of these mutations on ER protein levels and its activity, which is tightly regulated, is vital. ER activity is in part controlled via its short protein half-life and therefore changes to its stability, either through mutations or alterations in pathways involved in protein stability, may play a role in therapy resistance. Understanding these connections and how ESR1 alterations could affect protein stability may identify novel biomarkers of resistance. This review explores the current reported data regarding posttranslational modifications (PTMs) of the ER and the potential impact of known resistance associated ESR1 mutations on ER regulation by affecting these PTMs in the context of ET resistance.
Combination ribociclib and aromatase inhibitors are currently the preferred treatment in Australia for newly diagnosed hormone receptor positive metastatic breast cancer in the absence of visceral crisis. In our case series of 32 patients, 28% experienced grade 1 elevations in creatinine, a toxicity that was under‐recognised in large phase III studies. Creatinine rise appears to be due to a reversible inhibition of renal efflux transporters rather than an acute kidney injury in the majority of cases.
Background: The combination of CDK 4/6 inhibition and endocrine therapy has emerged as the new first line standard of care treatment for patients with hormone receptor (HR) +ve metastatic breast cancer (MBC)1. Ribociclib plus letrozole has been shown to improve PFS (25.3 vs 16.0 months; log-rank P=9.63x10-8) compared to letrozole alone2. More recently, this benefit has also been demonstrated in pre- and peri-menopausal women in combination with ovarian suppression and tamoxifen or an aromatase inhibitor (AI), with an improved overall survival (40.9 months vs OS not reached; HR = 0.712; p=0.00973) in the MONALEESA-7 study3. Approximately 800 patients in Australia participated in the ribociclib medicine access program (MAP) between May 2017 and June 2018, prior to government funding. Beyond eligibility criteria for the program and clinician name, no patient data was initially captured, consistent with usual practice for MAPs, due to the multiple challenges related to ethics, data ownership, security and patient privacy. We have previously demonstrated the feasibility of successful data collection alongside MAPs4 which can yield benefits for clinicians, industry and the broader medical community. Based on this we plan to retrospectively collect data for patients treated as part of the Australian ribociclib MAP. Trial Design: This is a secondary data use, non-interventional study of patients in Australia who received treatment with the combination of an AI and ribociclib, obtained via a MAP, for HR+ HER2- MBC. The target sample size is 250 patients from ~15 sites. De-identified patient data will be retrieved from the patient’s medical records and entered on to an electronic case report form. Data collection is anticipated to commence in July 2019 with the final treatment and survival outcomes collected in late 2020, thus allowing for a minimum of 24 month follow up for all patients from the start date of treatment with ribociclib and AI (May 2017 - June 2018). Study Aims: The primary aim of the study is to describe real world clinical and tumour characteristics of patients with HR+ HER2-ve MBC in Australia who are recommended and received ribociclib in combination with an aromatase inhibitor in the first line setting. Details of adjuvant therapy received and the tolerability of the treatment combination including dose interruptions, dose reductions and significant adverse events of interest related to ribociclib will be assessed. Secondary aims include time to treatment progression and progression free survival for the ribociclib and AI combination, and to explore the disease course post progression, including clinician choice of subsequent lines of therapy in routine clinical practice. References: 1. Cardoso F, Senkus E, Costa A et al. 4th ESO-ESMO International Consensus Guidelines for Advanced Breast Cancer (ABC 4). Ann Oncol 2018;29:1634-1657. 2. Hortobagyi GN, Stemmer SM, Burris HA, Yap YS, Sonke GS, Paluch-Shimon S, et al. Updated results from MONALEESA-2, a phase III trial of first-line ribociclib plus letrozole versus placebo plus letrozole in hormone receptor-positive, HER2-negative advanced breast cancer. Ann Oncol 2018;29:1541-47. 3. Im SA, Lu YS, Bardia A, et al: Overall survival with ribociclib plus endocrine therapy in breast cancer. N Engl J Med. June 4, 2019 (early release online) 4. Lok SW, De Boer R, Cordwell C et al. Demonstrating the feasibility of collecting secondary, de-identified data on Australian patients receiving treatment as part of a Medicine Access Program. Intern Med J. 2019 Feb 28. Acknowledgement We thank Novartis for providing funding for this Research Collaboration. Citation Format: Sheau Wen Lok, Sally Baron-Hay, Elgene Lim, Robert Blum, Fran Boyle, Kerrie Clarke, Katharine Cuff, Michael Green, Laeeq Malik, Kelly Mok, Nick Murray, Louise Nott, Michelle Nottage, Ali Tafreshi, Daphne Tsoi, Belinda Yeo, Peter Gibbs, Richard De Boer. A 'real world' experience of CDK4/6 inhibition with ribociclib and endocrine therapy in hormone receptor positive metastatic breast cancer in Australia [abstract]. In: Proceedings of the 2019 San Antonio Breast Cancer Symposium; 2019 Dec 10-14; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2020;80(4 Suppl):Abstract nr OT2-02-01.
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