Satellite Cells Derived from Obese Humans with Type 2 Diabetes and Differentiated into Myocytes In Vitro Exhibit Abnormal Response to IL-6

Obesity and type 2 diabetes are associated with chronically elevated systemic levels of IL-6, a pro-inflammatory cytokine with a role in skeletal muscle metabolism that signals through the IL-6 receptor (IL-6Rα). We hypothesized that skeletal muscle in obesity-associated type 2 diabetes develops a resistance to IL-6. By utilizing western blot analysis, we demonstrate that IL-6Rα protein was down regulated in skeletal muscle biopsies from obese persons with and without type 2 diabetes. To further investigate the status of IL-6 signaling in skeletal muscle in obesity-associated type 2 diabetes, we isolated satellite cells from skeletal muscle of people that were healthy (He), obese (Ob) or were obese and had type 2 diabetes (DM), and differentiated them in vitro into myocytes. Down-regulation of IL-6Rα was conserved in Ob myocytes. In addition, acute IL-6 administration for 30, 60 and 120 minutes, resulted in a down-regulation of IL-6Rα protein in Ob myocytes compared to both He myocytes (P<0.05) and DM myocytes (P<0.05). Interestingly, there was a strong time-dependent regulation of IL-6Rα protein in response to IL-6 (P<0.001) in He myocytes, not present in the other groups. Assessing downstream signaling, DM, but not Ob myocytes demonstrated a trend towards an increased protein phosphorylation of STAT3 in DM myocytes (P = 0.067) accompanied by a reduced SOCS3 protein induction (P<0.05), in response to IL-6 administration. Despite this loss of negative control, IL-6 failed to increase AMPKα2 activity and IL-6 mRNA expression in DM myocytes. There was no difference in fusion capacity of myocytes between cell groups. Our data suggest that negative control of IL-6 signaling is increased in myocytes in obesity, whereas a dysfunctional IL-6 signaling is established further downstream of IL-6Rα in DM myocytes, possibly representing a novel mechanism by which skeletal muscle function is compromised in type 2 diabetes

Comparison between BCNU and procarbazine chemotherapy for treatment of gliomas

We compared sequential single-agent BCNU and procarbazine (PCB) chemotherapy in 31 patients with gliomas [grade IV (10), grade III (15), grade II (6)]. Patients had failed surgical biopsy ± resection and radiation therapy. All patients were treated initially with BCNU 150-300mg/m 2 by intra-arterial or intravenous route every 6 weeks. After CT evidence of tumor progression, all patients received PCB 150mg/m 2 /day for 28 days every 8 weeks. Patient responses to BCNU were CR (0), PR (7), SD (12), progression (12), and to PCB CR (2), PR (9), SD (6), and progression (14). Kaplan-Meier estimates of median time to failure for all patients were shorter for BCNU, 5.0 months (range 1.5–20), than for PCB, 6.0 months (range 2–50+). There was a statistically significant difference (Mantel-Cox test, p=0.02) in the distribution of time to disease progression between the two drugs, especially for grade III tumors (p= 0.02). The cumulative proportion of patients without disease progression at 6 months was 26% while on BCNU, compared to 48% while on PCB; at 12 months the cumulative proportions were 3% for BCNU compared to 35% for PCB. Although there was no formal washout period between administration of the two drugs, no carryover effect was evident. These data provide further evidence that PCB has significant activity against malignant glioma and may, in fact, be more effective than BCNU.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/45377/1/11060_2005_Article_BF01050072.pd

Abnormal cerebellar development and axonal decussation due to mutations in AHI1 in Joubert syndrome

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