An innovative ferroptosis-inducing strategy integrating GSH exhaustion and ROS generation for cancer therapy.
Intrauterine adhesions (IUAs) refer to the repair disorder after endometrial injury and may lead to uterine infertility, recurrent miscarriage, abnormal menstrual bleeding, and other obstetric complications. It is a pressing public health issue among women of childbearing age. Presently, there are limited clinical treatments for IUA, and there is no sufficient evidence that these treatment modalities can effectively promote regeneration after severe endometrial injury or improve pregnancy outcome. The inhibitory pathological micro-environment is the main factor hindering the repair of endometrial damaged tissues. To address this, tissue engineering and regenerative medicine have been achieving promising developments. Particularly, biomaterials have been used to load stem cells or therapeutic factors or construct an in situ delivery system as a treatment strategy for endometrial injury repair. This article comprehensively discusses the characteristics of various bio-scaffold materials and their application as stem cell or therapeutic factor delivery systems constructed for uterine tissue regeneration.
Pregnancy is a complicated and delicate process, the maternal body undergoes changes on hormones, immunity, and metabolism during pregnancy to support fetal development. Microbiomes in the human body mainly live in the intestine, and the human gut microbiomes are complex, which composed of more than 500 to 1500 different bacteria, archaea, fungi, and viruses. Studies have shown that these microbiomes are not only involved in the digestion and absorption of food but also indispensable in regulating host health. In recent years, there has been increasing evidence that microbiomes are important for pregnant women and fetuses. During pregnancy, there will be great changes in gut microbiomes. Regulating gut microbiomes is beneficial to the health of the mother and the fetus. In addition, many complications during pregnancy are related to gut microbiomes, such as gestational diabetes, obesity, preeclampsia, digestive disorders, and autoimmune diseases. Moreover, the microbiomes in mother's milk and vagina are closely related to the colonization of microbiomes in the early life of infants. In this review, we systematically review the role of maternal microbiomes in different gestational complications, and elucidate the function and mechanism of maternal microbiomes in the neural development and immune system of offspring. These will provide a clear knowledge framework or potential research direction for researchers in related fields.
Increasing evidence shows that the extracellular matrix (ECM) is an important regulator of breast cancer (BC). The ECM comprises of highly variable and dynamic components. Compared with normal breast tissue under homeostasis, the ECM undergoes many changes in composition and organization during BC progression. Induced ECM proteins, including fibrinogen, fibronectin, hyaluronic acid, and matricellular proteins, have been identified as important components of BC metastatic cells in recent years. These proteins play major roles in BC progression, invasion, and metastasis. Importantly, several specific ECM molecules, receptors, and remodeling enzymes are involved in promoting resistance to therapeutic intervention. Additional analysis of these ECM proteins and their downstream signaling pathways may reveal promising therapeutic targets against BC. These potential drug targets may be combined with new nanoparticle technologies. This review summarizes recent advances in functional nanoparticles that target the ECM to treat BC. Accurate nanomaterials may offer a new approach to BC treatment.
Ovarian cancer is one of the most common types of solid carcinoma diagnosed during pregnancy. Taxane plus a platinum derivative is a combination therapy that is predominantly used in the treatment of ovarian cancer in non-pregnant women. Pregnancy adds various complexities to a course of treatment. In pregnant patients diagnosed with cancer during the first trimester, the risks of fetal malformations and fetal loss increase following the administration of cytotoxic drugs, and this is higher with multi-agent vs. single-agent chemotherapy (~ 25 vs. 10%). Exposure during the second and third trimester has little influence on teratogenic effects but increases the risk of intrauterine growth retardation, prematurity, low birth weight, and bone marrow toxicity. The present study aimed to review the maternal and fetal safety of treatment with taxane plus platinum derivatives for ovarian cancer during pregnancy. Relevant literature was retrieved from the Embase and PubMed databases using the search terms "ovarian cancer", "pregnancy", "taxane", "paclitaxel", "docetaxel", "platinum", "cisplatin", and "carboplatin". All available data up until September 2016 was synthesized, with no language restrictions. A total of 11 articles (including 13 pregnancies and 14 newborns) were retrieved that reported on the use of standard-dose taxane and platinum chemotherapy, including 9 cases treated with paclitaxel and carboplatin, 3 cases treated with paclitaxel and cisplatin, and 1 case treated with docetaxel and cisplatin. In 13 of the 14 (92.9%) births included, a healthy neonate was born, with follow-up ranging from 2 to 160 months. The average weight of the neonates at the time of delivery was 2,442.1 g. In 7 of 9 the case reports that provided survival data, the mother was alive and disease-free at the end of follow-up (ranging from 2 to 40 months). In conclusion, combination therapy with taxanes and a platinum derivative may play a significant role in the management of pregnant patients with ovarian cancer during the second and third trimester. Exposure to this combination of agents during the second and third trimester does not appear to have a significant bearing on fetal mortality and abortion. .
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