BACKGROUND. In the Joslin Medalist Study (Medalists), we determined whether significant associations exist between β cell function and pathology and clinical characteristics. METHODS. Individuals with type 1 diabetes (T1D) for 50 or more years underwent evaluation including HLA analysis, basal and longitudinal autoantibody (AAb) status, and β cell function by a mixed-meal tolerance test (MMTT) and a hyperglycemia/ arginine clamp procedure. Postmortem analysis of pancreases from 68 Medalists was performed. Monogenic diabetes genes were screened for the entire cohort. RESULTS. Of the 1019 Medalists, 32.4% retained detectable C-peptide levels (>0.05 ng/mL, median: 0.21 ng/mL). In those who underwent a MMTT (n = 516), 5.8% responded with a doubling of baseline C-peptide levels. Longitudinally (n = 181, median: 4 years), C-peptide levels increased in 12.2% (n = 22) and decreased in 37% (n = 67) of the Medalists. Among those with repeated MMTTs, 5.4% (3 of 56) and 16.1% (9 of 56) had waxing and waning responses, respectively. Thirty Medalists with baseline C-peptide levels of 0.1 ng/mL or higher underwent the clamp procedure, with HLA-/AAband HLA + /AAb-Medalists being most responsive. Postmortem examination of pancreases from 68 Medalists showed that all had scattered insulin-positive cells; 59 additionally had few insulin-positive cells within a few islets; and 14 additionally had lobes with multiple islets with numerous insulin-positive cells. Genetic analysis revealed that 280 Medalists (27.5%) had monogenic diabetes variants; in 80 (7.9%) of these Medalists, the variants were classified as "likely pathogenic" (rare exome variant ensemble learner [REVEL] >0.75). CONCLUSION. All Medalists retained insulin-positive β cells, with many responding to metabolic stimuli even after 50 years of T1D. The Medalists were heterogeneous with respect to β cell function, and many with HLA + diabetes risk alleles also had monogenic diabetes variants, indicating the importance of genetic testing for clinically diagnosed T1D.
A subset of people with long-standing type 1 diabetes (T1D) appears to be protected from microvascular and macrovascular complications. Previous studies have focused on improved abilities to respond to glucose and its downstream effects as protective mechanisms. It is unclear whether lipoproteins play a role in the vascular health of these people. We therefore determined whether HDL particle concentration, size, function, and/or protein composition associate with protection from vascular complications. RESEARCH DESIGN AND METHODSWe studied two independent cross-sectional cohorts with T1D: the T1D Exchange Living Biobank (n 5 47) and the Joslin Medalist Study (n 5 100). Some of the subjects had vascular complications, whereas others never exhibited vascular complications, despite an average duration of diabetes in the cohorts of 45 years. We assessed HDL particle size and concentration by calibrated ion mobility analysis, the HDL proteome by targeted mass spectrometry, and HDL function ex vivo by quantifying cholesterol efflux capacity and inhibition of monocyte adhesion to endothelial cells. RESULTSIn both cohorts, people without vascular complications exhibited significantly higher concentrations of medium-sized HDL particles (M-HDL) independently of total and HDL cholesterol levels. While no consistent differences in HDL functions were observed ex vivo, people without vascular complications had higher levels of HDL-associated paraoxonase 1 (PON1), an enzyme that inhibits atherosclerosis in animal models. CONCLUSIONSElevated concentrations of M-HDL particles and elevated levels of HDL-associated PON1 may contribute to long-term protection from the vascular complications of diabetes by pathways that are independent of total cholesterol and HDL cholesterol.
Context Cognitive dysfunction is a growing and understudied public health issue in the aging type 1 diabetic population and is difficult and time-consuming to diagnose. Studies in long duration type 1 diabetes have reported the presence of proliferative diabetic retinopathy was associated with cognitive dysfunction. Objective This study assessed whether structural and vascular abnormalities of the retina, representing an extension of the central nervous system, are associated with cognitive impairment and other complications of type 1 diabetes. Methods An observational cross-sectional study of individuals with 50 or more years of type 1 diabetes (Joslin Medalist Study) was conducted at a university hospital in the United States. The study included 129 participants with complete cognitive testing. Validated cognitive testing measures included psychomotor speed, and immediate, and delayed memory. Optical coherence tomography (OCT) and OCT angiography (OCTA) were performed to obtain neural retinal layer thicknesses and vascular density for superficial (SCP) and deep retinal capillary plexus (DCP). Multivariable modeling was adjusted for potential confounders associated with outcomes in unadjusted analyses. Results Decreased vessel density of the SCP and DCP was associated with worse delayed memory (DCP: P = .002) and dominant hand psychomotor speed (SCP: P = .01). Thinning of the retinal outer nuclear layer was associated with worse psychomotor speed both in nondominant and dominant hands (P = .01 and P = .05, respectively). Outer plexiform layer thickness was associated with delayed memory (P = .04). Conclusion These findings suggest that noninvasive retinal imaging using OCT and OCTA may assist in estimating the risks for cognitive dysfunction in people with type 1 diabetes.
Background: Esophageal Adenocarcinoma (EAC) continues to rise in incidence, with prognosis remaining poor despite advances in multimodality therapy. Several novel target agents are now being explored as an option for treating EAC. One potential target is heat shock protein 90 (Hsp90), a chaperone protein that is involved in many diverse biological processes including cell signaling, proliferation, and survival. Many of the client proteins are known oncoproteins that allow Hsp90 to stabilize cancer cell growth by supporting proliferation and preventing apoptosis. The isoform, Hsp90β, is constituently expressed, while Hsp90α is inducible during times of stress, with expression increased 2-10 fold in cancers. Our hypothesis is that Hsp90 inhibition, in combination with standard chemotherapeutic drugs, will cause EAC cancer cells to be more susceptible to apoptosis and reduce the rate of proliferation. Methods: EAC cell lines, OE19 and OE33, were used to evaluate the effects of Hsp90 inhibitor, AUY-922, in cancer cell growth and apoptosis. ELISA of WST-1 and BrdU were used to determine the effective dosage and assess proliferation. Pathway inhibition was evaluated by Western Blot of Hsp90α and Hsp70. OE19, OE33, and patient samples of EAC tumor and gastroesophageal reflux tissue were used to assess the gene expression of Hsp90 and several client protein pathways by reverse transcription polymerase chain reaction (RT-PCR). Results: The ED50 of AUY-922 was determined to be 30ηM. A combination of chemotherapeutic drugs, cisplatin and 5-fluorouracil (5-Fu), along with AUY-922 showed significantly decreased proliferation compared to untreated and single agent treated cell lines. Western blot demonstrated that Hsp90 was inhibited by AUY-922 treatment, by a decrease in expression of Hsp90α, and an increase in the expression of Hsp70. RT-PCR in the cell line treatment groups showed an impact on many client oncoproteins involved in cancer cell survival and Hsp90 was shown to be upregulated in tumor samples when compared to normal GERD samples. Conclusion: The use of Hsp90 inhibitor, AUY-922, leads to reduced Hsp90 pathway expression, resulting in a degradation of many Hsp90 client proteins involved in cancer genesis. Cell proliferation was decreased with AUY-922 treatment, with the greatest demonstrated effect when used in combination with cisplatin and 5-Fu. Therefore, Hsp90 inhibition may have an application in multimodal EAC chemotherapy. Citation Format: Christina L. Rotoloni, Jaclyn M. LaRosa, Michael J. Porter, Lori A. Kelly, Katherine Nega, Emily Wolfson, Yoshihiro Komastu, Juliann E. Kosovec, Pashtoon M. Kasi, Toshitaka Hoppo, Ali H. Zaidi, Blair A. Jobe. Enhanced efficacy of cisplatin and 5-fluorouracil combination with AUY-922 in esophageal adenocarcinoma cells. [abstract]. In: Proceedings of the Third AACR International Conference on Frontiers in Basic Cancer Research; Sep 18-22, 2013; National Harbor, MD. Philadelphia (PA): AACR; Cancer Res 2013;73(19 Suppl):Abstract nr A48.
Background Guidelines recommend shared decision making (SDM) for mammography screening for women ≥ 75 and not screening women with < 10-year life expectancy. High-quality SDM requires consideration of women’s breast cancer (BC) risk, life expectancy, and values but is hard to implement because no models simultaneously estimate older women’s individualized BC risk and life expectancy. Methods Using competing risk regression and data from 83,330 women > 55 years who completed the 2004 Nurses’ Health Study (NHS) questionnaire, we developed (in 2/3 of the cohort, n = 55,533) a model to predict 10-year non-breast cancer (BC) death. We considered 60 mortality risk factors and used best-subsets regression, the Akaike information criterion, and c-index, to identify the best-fitting model. We examined model performance in the remaining 1/3 of the NHS cohort (n = 27,777) and among 17,380 Black Women’s Health Study (BWHS) participants, ≥ 55 years, who completed the 2009 questionnaire. We then included the identified mortality predictors in a previously developed competing risk BC prediction model and examined model performance for predicting BC risk. Results Mean age of NHS development cohort participants was 70.1 years (± 7.0); over 10 years, 3.1% developed BC, 0.3% died of BC, and 20.1% died of other causes; NHS validation cohort participants were similar. BWHS participants were younger (mean age 63.7 years [± 6.7]); over 10-years 3.1% developed BC, 0.4% died of BC, and 11.1% died of other causes. The final non-BC death prediction model included 21 variables (age; body mass index [BMI]; physical function [3 measures]; comorbidities [12]; alcohol; smoking; age at menopause; and mammography use). The final BC prediction model included age, BMI, alcohol and hormone use, family history, age at menopause, age at first birth/parity, and breast biopsy history. When risk factor regression coefficients were applied in the validation cohorts, the c-index for predicting 10-year non-BC death was 0.790 (0.784–0.796) in NHS and 0.768 (0.757–0.780) in BWHS; for predicting 5-year BC risk, the c-index was 0.612 (0.538–0.641) in NHS and 0.573 (0.536–0.611) in BWHS. Conclusions We developed and validated a novel competing-risk model that predicts 10-year non-BC death and 5-year BC risk. Model risk estimates may help inform SDM around mammography screening.
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