Carcinoembryonic antigen potentiates non-small cell lung cancer progression via PKA-PGC-1ɑ axis.

Carcinoembryonic antigen (CEA) is a tumor-associated antigen primarily produced by tumor cells. It has been implicated in various biological processes such as cell adhesion, proliferation, differentiation, and metastasis. Despite this, the precise molecular mechanisms through which CEA enhances tumor cell proliferation remain largely unclear. Our study demonstrates that CEA enhances the proliferation and migration of non-small cell lung cancer (NSCLC) while also inhibiting cisplatin-induced apoptosis in NSCLC cells. Treatment with CEA led to an increase in mitochondrial numbers and accumulation of lipid droplets in A549 and H1299 cells. Additionally, our findings indicate that CEA plays a role in regulating the fatty acid metabolism of NSCLC cells. Inhibiting fatty acid metabolism significantly reduced the CEA-mediated proliferation and migration of NSCLC cells. CEA influences fatty acid metabolism and the proliferation of NSCLC cells by activating the PGC-1α signaling pathway. This regulatory mechanism involves CEA increasing intracellular cAMP levels, which in turn activates PKA and upregulates PGC-1α. In NSCLC, inhibiting the PKA-PGC-1α signaling pathway reduces both fatty acid metabolism and the proliferation and migration induced by CEA, both in vitro and in vivo. These results suggest that CEA contributes to the promotion of proliferation and migration by modulating fatty acid metabolism. Targeting CEA or the PKA-PGC-1ɑ signaling pathway may offer a promising therapeutic approach for treating NSCLC.

Mechanisms of diabetic foot ulceration: A review.

Diabetic foot ulcers (DFUs) are associated with complex pathogenic factors and are considered a serious complication of diabetes. The potential mechanisms underlying DFUs have been increasingly investigated. Previous studies have focused on the three aspects of diabetic peripheral vascular disease, neuropathy, and wound infections. With advances in technology, researchers have been gradually conducting studies using immune cells, endothelial cells, keratinocytes, and fibroblasts, as they are involved in wound healing. It has been reported that the upregulation or downregulation of molecular signaling pathways is essential for the healing of DFUs. With a recent increase in the awareness of epigenetics, its regulatory role in wound healing has become a much sought-after trend in the treatment of DFUs. This review focuses on four aspects involved in the pathogenesis of DFUs: physiological and pathological mechanisms, cellular mechanisms, molecular signaling pathway mechanisms, and epigenetics. Given the challenge in the treatment of DFUs, we are hopeful that our review will provide new ideas for peers.

Human Keratinocyte-Derived Exosomal MALAT1 Promotes Diabetic Wound Healing by Upregulating MFGE8 via microRNA-1914-3p.

Purpose: Diabetic wound is a highly prevalent and refractory disease. Extensive studies have confirmed that keratinocytes and macrophages play an important role in the process of wound healing. Additionally, exosomes are regarded as a vital intercellular communication tool. This study aimed to investigate the role of human keratinocyte-derived exosomal MALAT1 in the treatment of diabetic wound by influencing the biological function of macrophages. Methods: We mainly assessed the function of MALAT1 on the biological changes of macrophages, and the expression of MALAT1 in the keratinocyte-exosomes analyzed by quantitative real-time polymerase chain reaction (RT-qPCR). The downstream interaction between RNAs or proteins was assessed by mechanistic experiments. Besides, we evaluated the effects of human keratinocyte-derived exosomal MALAT1 on diabetic wound healing in vivo to verify in vitro results. Results: We demonstrated that human keratinocyte-derived exosomal MALAT1 enhanced the biological functions of high glucose-injured macrophages, including phagocytosis, converting to a pro-healing phenotype and reducing apoptosis. Mechanistically, MALAT1 accelerated the expression of MFGE8 by competitively binding to miR-1914-3p, thereby affecting the function of macrophages and the signal axis of TGFB1/SMAD3, and finally promoting the healing of diabetic wounds. Human keratinocyte-derived exosomal MALAT1 might promote collagen deposition, ECM remodeling, and expression of MFGE8, VEGF, and CD31 but reduce the expression of TGFB and SMAD3 in an in vivo model of diabetic mice wounds, which accelerated diabetic wound healing and restored its function. Conclusion: The current study revealed that human keratinocyte-derived exosomal MALAT1 would suppress miR-1914-3p to activate MFGE8 and eventually promote wound healing by enhancing macrophage phagocytosis, converting to a pro-healing phenotype and reducing apoptosis. It proposed that keratinocyte-derived exosomes might have the capacity to serve as a new method for the clinical treatment of diabetic wound.

Scavenger receptor a mediates glycated LDL transcytosis across endothelial cells to promote atherosclerosis.

Glycated low-density lipoprotein (G-LDL) is an established proatherosclerotic factor, but the mechanism is not completely understood. In vitro, we evaluated the uptake and transcytosis rates of N-LDL and G-LDL in endothelial cells and the uptake and transcytosis rates of G-LDL were much higher than those of N-LDL. Then, using small interfering RNAs, the receptor mediating G-LDL uptake and transcytosis was screened among eight candidate receptors, and the mechanism of the receptor regulation was thoroughly examined. We discovered that scavenger receptor A (SR-A) knockdown dramatically decreased the uptake and transcytosis rates of G-LDL. Additionally, endothelial cells with overexpressed SR-A had enhanced G-LDL uptake and transcytosis. In vivo, G-LDL was injected in the tail vein of ApoE-/- mice to investigate whether G-LDL affects atherosclerotic plaque formation. Compared with the injection of N-LDL, the injection of G-LDL accelerated atherosclerotic plaque formation in ApoE-/- mice, which was ameliorated by endothelial cells specific SR-A knockdown. Together, our results provide the first demonstration that the transcytosis of G-LDL across endothelial cells is much faster than that of N-LDL and SR-A is the major type of receptor responsible for G-LDL binding and transcytosis across endothelial cells.

Identification of the MALAT1/miR-106a-5p/ZNF148 feedback loop in regulating HaCaT cell proliferation, migration and apoptosis.

Aims: This study aims to investigate the function of positive feedback loops involving noncoding RNA in diabetic wound healing. Methods: We developed a mouse diabetic wound model to confirm that hyperglycemia can impair wound healing. We also used an in vitro keratinocyte model in high-glucose conditions to investigate the mechanism of delayed wound healing. Results: MALAT1 was decreased in diabetic mouse wound tissue and can promote keratinocyte biological functions. MALAT1 could bind to miR-106a-5p to modulate the expression of ZNF148, a target gene of miR-106a-5p. Surprisingly, ZNF148 bound to a region in the MALAT1 promoter to stimulate gene expression. Conclusion: ZNF148-activated MALAT1 increases ZNF148 expression by competitively binding miR-106a-3p, generating a positive feedback loop that enhances keratinocyte function.

Delayed wound repair is a leading cause of diabetic foot ulcers. However, the molecular mechanism underlying impaired wound healing in diabetes is unclear. In our study we found that a positive feedback loop consisting of MALAT1, miR-106a-5p and ZNF148 could promote chronic wound repair. In diabetic skin tissues, MALAT1 levels were lower, causing impairments in skin cell function. On a molecular level, MALAT1 can bind miR-106a-5p to increase ZNF148 levels. Surprisingly, ZNF148 can bind the promoter of MALAT1 to reverse the decline of MALAT1 levels in diabetic wounds. Our findings advance our understanding of chronic diabetic wounds and, more crucially, open new therapeutic possibilities for this disease.

[An introduction of different positioning tests of benign paroxysmal positional vertigo and their clinical values].

OBJECTIVE: To explore the clinical value of different positioning tests for different benign paroxysmal positional vertigo (BPPV). METHOD: This research applies Dix-Hallpike test and Side-lying test for PC-BPPV, Roll test and WRW test for HC-BPPV, Dix-Hallpike test, Side-lying test and Rahko T maneuvers for SC-BPPV. Six hundred and thirteen cases, who were tested with different positioning tests in the sequence of firstly PC-BPPV then HC-BPPV and finally SC-BPPV, were randomly divided into 2 groups. The order of positioning tests for PC-BPPV and HC-BPPV in the two groups was reversed. RESULT: There's no significant difference between the detection rate of Dix-Hallpike test and Side-lying test for PC-BPPV (P > 0.05). Similarly, there's no difference in statistics between the detection rate of Roll test and WRW test for HC-BPPV (P > 0.05). However, the detection rate of Rahko T maneuver was higher than the other two tests for SC-BPPV and the differences were statistically significant (P < 0.05). The detection rates of different positioning tests for PC-BPPV and HC-BPPV between the two groups were not different in statistics (P > 0.05), which implies that the different order had no effect on the sensitivity of each positioning test. CONCLUSION: Dix-Hallpike test is recommended as the first choice for PC-BPPV for its more efficient stimulus to the posterior semicircular canal, and Side-lying test is recommended as a prior choice to the patients with suspected PC-BPPV but unable to receive Dix-Hallpike test because of its similar sensitivity and more convenient manipulation. The detection rate of Both Roll test and WRW test were higher than 90% and there's no significant difference between the two tests. In addition, Roll test is easier to perform and helpful for the therapy, so its considered as the preferred test for HC-BPPV with WRW test as the supplement test. Nevertheless, for SC-BPPV the sensitivity of Rahko T maneuver was higher than that of the other two tests, so it can be used to confirm the suspected SC-BPPV patients detected or missed diagnosed by the two other tests. To avoid misdiagnosis or missed diagnosis, the judgment of affected semicircular canal is determined not only by positioning test but also by the feature of nystagmus.