This is the first part of a two-part study to investigate the cellular distribution and temporal regulation of α-amino-3-hydroxy-5-methyl-4-isoxazole-propionic acid receptor (AMPAR) subunits in the developing white matter and cortex in rat (part I) and human (part II). Western blot and immunocytochemistry were used to evaluate the differential expression of AMPAR subunits on glial and neuronal subtypes during the first 3 postnatal weeks in the Long Evans and Sprague Dawley rat strains. In Long Evans rats during the first postnatal week, GluR2-lacking AMPARs were expressed predominantly on white matter cells, including radial glia, premyelinating oligodendrocytes, and subplate neurons, whereas, during the second postnatal week, these AMPARs were highly expressed on cortical neurons, coincident with decreased expression on white matter cells. Immunocytochemical analysis revealed that cell-specific developmental changes in AMPAR expression occurred 2-3 days earlier by chronological age in Sprague Dawley rats compared with Long Evans rats, despite overall similar temporal sequencing. In both white and gray matter, the periods of high GluR2 deficiency correspond to those of regional susceptibility to hypoxic/ischemic injury in each of the two rat strains, supporting prior studies suggesting a critical role for Ca 2+ -permeable AMPARs in excitotoxic cellular injury and epileptogenesis. The developmental regulation of these receptor subunits strongly suggests that Ca 2+ influx through GluR2-lacking AMPARs may play an important role in neuronal and glial development and injury in the immature brain. Moreover, as demonstrated in part II, there are NIH-PA Author ManuscriptNIH-PA Author Manuscript NIH-PA Author Manuscript striking similarities between rat and human in the regional and temporal maturational regulation of neuronal and glial AMPAR expression. Indexing termsglutamate receptor; perinatal; excitotoxicity; seizure; neuron; oligodendrocyteThe immature brain is highly susceptible to hypoxia/ischemia (H/I), and perinatal H/I brain injury represents a major cause of neurodevelopmental disorders in both preterm and term infants (Volpe, 2001;Ferriero, 2004). In preterm infants, H/I causes primarily white matter injury, termed periventricular leukomalacia (PVL; Banker and Larroche, 1962;Okumura et al., 1997;Volpe, 2001). In contrast, H/I in term newborns causes predominantly gray matter lesions and seizures (Hauser et al., 1993;Maller et al., 1998;Roland et al., 1998;Saliba et al., 1999;Volpe, 2001).Rodent models of perinatal H/I brain injury reflect similar age-dependent regional differences, despite slight age variations in different rat strains. During the first week of life (postnatal day P1-P7), H/I results in selective white matter injury, characterized by loss of premyelinating oligodendrocytes (pre-OLs), followed by hypomyelination (Sheldon et al., 1996;Follett et al., 2000;Cai et al., 2001;Back et al., 2002;Liu et al., 2002). During the second postnatal week (P8-14), H/I causes spontaneous electro-grap...
Background and PurposeSystemic inflammation is known to promote carcinogenesis in biliary tract cancer (BTC). Neutrophil-to-lymphocyte ratio (NLR) and platelet-to-lymphocyte ratio (PLR) are indicative of systemic inflammation. We evaluated the clinical significance of systemic inflammation measured by NLR and PLR in patients with advanced BTC. Additionally, we also co-analyzed the dynamics of NLR and PLR during chemotherapy.MethodsWe reviewed 450 patients with unresectable BTC receiving palliative chemotherapy. NLR and PLR were obtained before initiation of palliative chemotherapy. Changes in NLR, PLR were obtained by subtracting the initial value from the value obtained after progression of chemotherapy.ResultsHigher systemic inflammation status also had relation with a primary tumor site (p = 0.003) and higher levels of CEA (p = 0.038). The ROC cut-off values of NLR and PLR for predicting overall survival (OS) were 3.8 and 121, respectively. Patients with a high NLR or PLR had worse OS independently in multivariate analysis (6.90 vs. 9.80 months, p =0.002; 7.83 vs. 9.90 months, p =0.041, respectively). High NLR with increased NLR after chemotherapy is associated with worse OS and progression-free survival (PFS) (p < 0.001, p = 0.013 respectively). Results are similar for PLR.ConclusionSystemic inflammation represented by NLR and PLR, predicts the OS of patients with advanced BTC who are receiving palliative chemotherapy. In addition, considering NLR/PLR with a dynamic change of NLR/PLR during chemotherapy might help to predict a more accurate prognosis.
BackgroundSeveral studies have suggested potential links of phthalates to obesity in children and adults. Limited evidence, however, has been available for the relations between diethylhexyl phthalate (DEHP) and obesity-related markers or body mass change in early life.Methods128 healthy pregnant women were recruited and, after delivery, their newborns’ first urine and umbilical cord blood samples were collected. We measured urinary levels of two DEHP metabolites, mono-(2-ethyl-5-hydroxyhexyl) phthalate (MEHHP) and mono-(2-ethyl-5-oxohexyl) phthalate (MEOHP). We also measured the levels of leptin, total cholesterol and triglyceride (TG) in cord serum, and used them along with weight, length, head circumference and ponderal index (PI, 100 g/cm3) at birth, as obesity-related markers, and estimated the relations between DEHP metabolites and obesity-related markers using generalised linear models. For the evaluation of body mass increase by early life DEHP exposure, body mass index (BMI) z-score change during 3 months after birth by DEHP metabolites in the first urine samples of the newborns were evaluated using logistic regression.ResultsDEHP exposure was associated with decrease of PI and increase of TG (PI, β=−0.11, p=0.070 and TG, β=0.14, p=0.027), especially for boys (PI, β=−0.13, p=0.021; and TG, β=0.19, p=0.025). Moreover, DEHP exposure was positively associated with body mass increase during 3 months after birth (change of BMI z-scores, OR=4.35, p=0.025).ConclusionsOur findings suggest that DEHP exposure may affect body mass change in early life through changes of obesity-related markers.
Correct temporal and spatial control of actin dynamics is essential for the cytotoxic T cell effector function against tumor cells. However, little is known whether actin engineering in tumor-targeted T cells can enhance their antitumor responses, thereby potentiating the adoptive T cell therapy. Here, we report that TAGLN2, a 22-KDa actin-stabilizing protein which is physically associated with lymphocyte function-associated antigen-1 (LFA-1), potentiates the OTI TCR CD8+ T cells to kill the intercellular adhesion molecule-1 (ICAM-1)-positive/OVA-presenting E0771 cells, but not ICAM-1-negative OVA-B16F10 cells, suggesting an ‘inside-out’ activation of LFA-1, which causes more efficient immunological synapse formation between T cells and tumor cells. Notably, recombinant TAGLN2 fused with the protein transduction domain (TG2P) overcame the disadvantages of viral gene delivery, leading to a significant reduction in tumor growth in mice. TG2P also potentiated the CD19-targeted, chimeric antigen receptor (CAR)-modified T cells to kill Raji B-lymphoma cells. Our findings indicate that activating the TAGLN2–actin–LFA-1 axis is an effective strategy to potentiate the adoptive T-cell immunotherapy.
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