Antiaging gene Klotho regulates epithelial‑mesenchymal transition and increases sensitivity to pemetrexed by inducing lipocalin‑2 expression
Epithelial-mesenchymal transition (EMT) is considered to serve an important role in the metastatic/invasive ability of cancer cells, in the acquisition of drug resistance, and in metabolic reprogramming. In the present study, it was hypothesized that the Klotho gene is involved in the metastatic/invasive ability of lung cancer. We previously reported an association between Klotho expression and overall survival in patients with small cell lung cancer and large cell neuroendocrine cancer. We also found that Klotho expression was associated with EMT-related molecules in lung squamous cell carcinoma. The present study aimed to analyze the function of the Klotho gene and to elucidate its relevance to the regulation of the EMT. For this purpose, GFP-Klotho plasmids were transfected into lung adenocarcinoma cells (A549) and cell lines with stable expression (A549/KL-1 and A549/KL-2) were established. A549/KL-1 cells expressed higher levels of Klotho protein by western blot analysis compared with A549/KL-2 cells. In western blotting of A549 and A549/KL-1 cells, the expression of the mesenchymal marker N-cadherin was found to be completely inhibited in A549/KL-1 cells suggesting that Klotho expression may regulate the EMT in cancer cells via the inhibition of N-cadherin. The results of the sensitivity tests demonstrated that A549/KL-1 cells were significantly more sensitive to pemetrexed compared with A549 cells (IC 50 A549/KL-1 vs. A549 cells, 0.1 µM vs. 0.7 µM). The results of the microarray analysis demonstrated that a very high level of lipocalin-2 (LCN2) expression was induced in the A549/KL-1 cells. Klotho overexpression completely suppressed the expression of mesenchymal markers, such as N-cadherin and Snail1 (Snail).The results of the present study suggested that there may be a new mechanism of action for the antitumor effects of pemetrexed, namely, LCN2-mediated modulation of N-cadherin expression. Klotho expression during cancer treatment has great potential as a predictor for efficacy of pemetrexed and as a factor in the selection of personalized medicine for postoperative adjuvant chemotherapy.
Background Photodynamic therapy (PDT) is a cancer‐targeted treatment that uses a photosensitizer (PS) and laser irradiation. The effectiveness of current PDT using red light for advanced cancers is limited, because red light can only reach depths within a few millimeters. To enhance the antitumor effect for lung cancers, we developed a new phototherapy, intelligent targeted antibody phototherapy (iTAP). This treatment uses a combination of immunotoxin and a PS, mono‐L‐aspartyl chlorin e6 (NPe6). Methods We examined whether cetuximab encapsulated in endosomes was released into the cytosol by PS in PDT under light irradiation. A431 cells were treated with fluorescein isothiocyanate‐labeled cetuximab, NPe6, and light irradiation and were observed with fluorescence microscopy. We analyzed the cytotoxicity of saporin‐conjugated cetuximab (IT‐cetuximab) in A431, A549, and MCF7 cells and the antitumor effect in model A549‐bearing mice in vivo using the iTAP method. Results Fluorescent microscopy analysis showed that the photodynamic effect of NPe6 (20 μM) and light irradiation (37.6 J/cm 2 ) caused the release of cetuximab from the endosome into the cytosol. In vitro analysis demonstrated that the iTAP method enhanced the cytotoxicity of IT‐cetuximab by the photodynamic effect. In in vivo experiments, compared with IT‐cetuximab alone or PDT alone, the iTAP method using a low dose of IT‐cetuximab showed the greatest enhancement of the antitumor effect. Conclusions Our study is the first report of the iTAP method using NPe6 for lung cancer cells. The iTAP method may become a new, minimally invasive treatment superior to current PDT methods.
Background:The da Vinci Si version of robot lacks a vascular stapler that can be controlled by the operating surgeon at the surgical console for dividing the pulmonary vessels. Therefore, in order to initiate and safely perform robotic anatomical lobectomy for lung cancer, it is important to develop a safe method for introducing the surgical stapler. Method:We performed a retrospective study of the first 42 consecutive patients who underwent robotic lobectomy for lung cancer at Nippon Medical School Hospital between January 2019 and December 2020. Results:Up to case 18, we performed Robot-assisted thoracoscopic surgery (RATS) lobectomy using the four-arm approach with two assistant ports. For dividing the pulmonary vessels, the surgical stapler was introduced through the assist ports. However, since this is not the port position usually used in video-assisted thoracoscopic surgery (VATS), there were many difficult situations.3 From case 19 onwards of RATS lobectomy, we began to use a total port approach using three robotic arms and two assistant ports. For resecting the pulmonary vessels or bronchi with endoscopic staplers, the port for the robotic arm was removed and the endoscopic staplers were placed through a 12-mm Xcel bladeless port. This change resulted in a shorter operation time, less blood loss, and less robotic arm interference. There has been no case that developed intraoperative complications during RATS lobectomy. Conclusion:The new total port approach, with three robotic arms, for introducing surgical staplers during RATS using the da Vinci Si robotic system appears to be feasible.
Spontaneous pulmonary hematoma with diffuse pulmonary ossification requiring emergency treatment: a case report
Background Pulmonary hematoma is most often caused by thoracic trauma. However, rare cases of pulmonary hematoma without any obvious cause are sometimes reported, when the condition is referred to as spontaneous or idiopathic pulmonary hematoma. Herein, we report a very rare case—to the best of our knowledge, this is the first case of pulmonary hematoma associated with diffuse pulmonary ossification requiring emergency treatment reported in the English literature. Case presentation Our patient was a 44-year-old man with a history of IgA nephropathy and had no history of trauma or anticoagulant use. He presented with the chief complaint of bloody sputum and was referred to our hospital for detailed examination. Chest computed tomography showed a right pleural effusion and a large round mass in the right lower lobe. We performed chest tube drainage of the right thorax and confirmed bloody pleural effusion. Although bronchial artery embolization was performed, the patient’s anemia worsened, and we performed right lower lobectomy. Histopathological examination of the resected specimen showed a hematoma with diffuse pulmonary ossification, although the relationship between the two was unclear. There was no evidence of malignancy or angiitis. Therefore, we made the diagnosis of spontaneous pulmonary hematoma in this case. The postoperative course was uneventful. The patient is currently under observation as an outpatient, and a recent chest X-ray showed no evidence of recurrence. Conclusion We report a case of spontaneous pulmonary hematoma with diffuse pulmonary ossification. Although the relationship between the two remains unclear, considering the possibility of appearance of new lesions/recurrence, we believe that careful follow-up is necessary for this patient.
Pulmonary adenofibroma is a rare biphasic tumor that contains epithelial and stromal components. We report a case of pulmonary adenofibroma in which the tumor was resected by thoracoscopic surgery and the diagnosis was established by histopathology. A 59-year-old woman with a past medical history of pyelonephritis visited our hospital for evaluation of an abnormal opacity on a plain chest x-ray during a comprehensive medical examination. A follow-up chest x-ray showed enlargement of the lesion, and the patient was referred to our department for further management. Chest computed tomography revealed a well-circumscribed nodule measuring 1.4 cm in diameter in the upper lobe of the left lung.The chest imaging findings suggested a benign tumor, but because of evidence of lesion enlargement and elevated serum carcinoembryonic antigen levels, we performed wide wedge resection of the left upper lobe by video-assisted thoracoscopic surgery, for diagnosis and treatment. The resected specimen was submitted for rapid pathological diagnosis during the operation, and a benign tumor, possibly sclerosing pneumocytoma, was suspected. Therefore, we completed the operation with wide wedge resection. The final histopathological diagnosis was pulmonary adenofibroma. The patient had an uneventful postoperative course, and at this writing, 6 months postoperatively, there has been no evidence of tumor recurrence. We have reported this case of pulmonary adenofibroma because the tumor is rare, has not yet been well-characterized, and has an unclear prognosis. Collection of data from a larger number of patients is necessary.
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