Pediatric primary and specialty practice has changed with more to do, more regulation and more family needs. Similarly, the needs of patients have changed with more demographic diversity, family stress and continued health disparities by race, ethnicity and socioeconomic status. How can clinicians continue their dedicated service to children and ensure health equity in the face of these changes? This paper outlines specific, practical, actionable and evidence-based activities for clinicians to assess and address health disparities in practice. These tools may also support Patient Centered Medical Home recognition, national and state cultural and linguistic competency standards and quality benchmarks that are increasingly tied to payment. Clinicians can play a critical role in 1) diagnosing disparities in one’s community and practice; 2) innovating new models to address social determinants of health; 3) addressing health literacy of families; 4) ensuring cultural competence and a culture of workplace equity; 5) advocating on issues that address the root causes of health disparities. Culturally competent care that is sensitive to family needs, their health literacy and health beliefs can increase satisfaction, improve quality of care and increase patient safety. Clinical care approaches to address social determinants of health and interrupting the intergenerational cycle of disadvantage include 1) screening for new health vital signs and connecting families to resources; 2) enhancing the comprehensiveness of services; 3) addressing family health in pediatric encounters; 4) moving care outside the office into the community. Health system investment is required to support clinicians and practice innovation to ensure equity.
Pancreatic ductal adenocarcinoma (PDAC) is driven by the accumulation of somatic mutations, epigenetic modifications and changes in the micro-environment. New approaches to investigating disruptions of gene expression networks promise to uncover key regulators and pathways in carcinogenesis. We performed messenger RNA-sequencing in pancreatic normal (n = 10) and tumor (n = 8) derived tissue samples, as well as in pancreatic cancer cell lines (n = 9), to determine differential gene expression (DE) patterns. Sub-network enrichment analyses identified HNF1A as the regulator of the most significantly and consistently dysregulated expression sub-network in pancreatic tumor tissues and cells (median P = 7.56×10(-7), median rank = 1, range = 1-25). To explore the effects of HNF1A expression in pancreatic tumor-derived cells, we generated stable HNF1A-inducible clones in two pancreatic cancer cell lines (PANC-1 and MIA PaCa-2) and observed growth inhibition (5.3-fold, P = 4.5×10(-5) for MIA PaCa-2 clones; 7.2-fold, P = 2.2×10(-5) for PANC-1 clones), and a G0/G1 cell cycle arrest and apoptosis upon induction. These effects correlated with HNF1A-induced down-regulation of 51 of 84 cell cycle genes (e.g. E2F1, CDK2, CDK4, MCM2/3/4/5, SKP2 and CCND1), decreased expression of anti-apoptotic genes (e.g. BIRC2/5/6 and AKT) and increased expression of pro-apoptotic genes (e.g. CASP4/9/10 and APAF1). In light of the established role of HNF1A in the regulation of pancreatic development and homeostasis, our data suggest that it also functions as an important tumor suppressor in the pancreas.
Genome-wide association studies (GWAS) have identified multiple common susceptibility loci for pancreatic cancer. Here we report fine-mapping and functional analysis of one such locus residing in a 610 kb gene desert on chr13q22.1 (marked by rs9543325). The closest candidate genes, KLF5, KLF12, PIBF1, DIS3 and BORA, range in distance from 265-586 kb. Sequencing three sub-regions containing the top ranked SNPs by imputation P-value revealed a 30 bp insertion/deletion (indel) variant that was significantly associated with pancreatic cancer risk (rs386772267, P ¼ 2.30 Â 10 À11 , OR ¼ 1.22, 95% CI 1.15-1.28) and highly correlated to rs9543325 (r 2 ¼ 0.97 in the 1000 Genomes EUR population). This indel was the most significant cis-eQTL variant in a set of 222 histologically normal pancreatic tissue samples (b ¼ 0.26, P ¼ 0.004), with the insertion (risk-increasing) allele associated with reduced DIS3 expression. DIS3 encodes a catalytic subunit of the nuclear RNA exosome complex that mediates RNA processing and decay, and is mutated in several cancers. Chromosome conformation capture revealed a long range (570 kb) physical interaction between a sub-region of the risk locus, containing rs386772267, and a region $6 kb upstream of DIS3. Finally, repressor regulatory activity and allele-specific protein binding by transcription factors of the TCF/LEF family were observed for the risk-increasing allele of rs386772267, indicating that expression regulation at this risk locus may be influenced by the Wnt signaling pathway. In conclusion, we have identified a putative functional indel variant at chr13q22.1 that associates with decreased DIS3 expression in carriers of pancreatic cancer risk-increasing alleles, and could therefore affect nuclear RNA processing and/or decay.
Ms Emmanuel conceptualized and drafted the manuscript; Drs Thompson and Catalanotto reviewed and revised the manuscript; and all authors approved the final manuscript as submitted and are accountable for all aspects of the work.
A genome-wide association study (GWAS) of pancreatic cancer conducted within the NCI Cohort Consortium (PanScan I and II) identified pancreatic cancer susceptibility loci on chromosomes 1q32.1/NR5A2, 5p15.33/CLPTM1L/TERT, 9q34.2/ABO, and 13q22.1. The most significant single-nucleotide polymorphism (SNP) identified on 13q22.1, rs9543325, lies in a ~600 kb gene desert; the nearest genes are KLF5, KLF12, PIBF1, DIS3, and BORA (265–586 kb away). Imputation using the 1000 Genomes and DCEG reference datasets did not improve the GWAS signal, but produced a set of highly correlated SNPs for functional follow-up. We performed eQTL analysis to test for association between the genotypes of these functional candidate variants and expression of nearby genes. Among 64 normal derived pancreatic tissue samples, DIS3 expression showed the strongest association with a 30 bp indel variant in the risk locus (P = 4.8 × 10-4), indicating risk alleles associate with reduced DIS3 expression. Mutations in DIS3 have previously been identified in acute myeloid leukemia and multiple myeloma, and its expression has been correlated with metastatic potential in colorectal cancer, suggesting DIS3 is relevant to cancer biology. Chromosome conformation capture identified a physical interaction between the indel-containing locus and a region near the DIS3 promoter. Luciferase assay for regulatory function of this indel-containing locus revealed allele-specific silencer activity for the insertion allele. Supershift electromobility shift assay (EMSA) demonstrated binding of LEF1 specifically to the insertion allele of the indel, which contains two in silico predicted LEF1 binding elements. Finally, through immunohistochemical analysis, high DIS3 protein levels associated with better survival for pancreatic cancer patients (hazard ratio = 2.87, 95% CI = 1.49–5.53, P = 0.001). Our results suggest that at least one target gene for the pancreatic cancer risk variants on chr13q22.1 may be DIS3, and that the underlying biology may be mediated by the novel indel through a long-range repressive effect on DIS3 expression. Citation Format: Jason W. Hoskins, Abdisamad Ibrahim, Mickey Emmanuel, Sarah Manmiller, Jinping Jia, Hemang Parikh, Irene Collins, Kris Ylaya, Sean F. Altekruse, Stephen M. Hewitt, Gloria M. Petersen, Laufey T. Amundadottir. Functional analysis of the chr13q22.1 pancreatic cancer risk locus suggests allele-specific effects on DIS3 expression with prognostic implications. [abstract]. In: Proceedings of the AACR Special Conference on Translation of the Cancer Genome; Feb 7-9, 2015; San Francisco, CA. Philadelphia (PA): AACR; Cancer Res 2015;75(22 Suppl 1):Abstract nr A1-09.
A genome-wide association study (GWAS) of pancreatic cancer conducted within the NCI Cohort Consortium (PanScan I and II) identified pancreatic cancer susceptibility loci on chromosomes 1q32.1/NR5A2, 5p15.33/CLPTM1L/TERT, 9q34.2/ABO, and 13q22.1. The most significant single-nucleotide polymorphism (SNP) identified on 13q22.1, rs9543325, lies in a 600 kb gene desert; the nearest genes are KLF5, KLF12, PIBF1, DIS3, and BORA (265–586 kb). Imputation using the 1000 Genomes and DCEG reference datasets did not improve the GWAS signal, but produced a set of highly correlated SNPs for functional follow-up. We performed eQTL analysis to test for association between the genotypes of these functional candidate variants and expression of nearby genes. Among 100 normal derived pancreatic tissue samples, DIS3 expression showed the strongest association with a novel 30 bp indel variant in the risk locus (P = 4.0 × 104), indicating risk alleles associate with reduced DIS3 expression. Mutations in DIS3 have previously been identified in acute myeloid leukemia and multiple myeloma, and its expression has been correlated with metastatic potential in colorectal cancer, suggesting DIS3 is relevant to cancer biology. Chromosome conformation capture identified a physical interaction between the indel-containing locus and a region near the DIS3 promoter. Luciferase assay for regulatory function of this indel-containing locus revealed allele-specific silencer activity for the insertion allele. Supershift electromobility shift assay (EMSA) demonstrated binding of LEF1 specifically to the insertion allele of the indel, which contains two in silico predicted LEF1 binding elements. Finally, through immunohistochemical analysis, high DIS3 protein levels associated with better survival for pancreatic cancer patients (hazard ratio = 2.87, 95% CI = 1.49–5.53, P = 0.001). Our results suggest that at least one target gene for the pancreatic cancer risk variants on chr13q22.1 may be DIS3, and that the underlying biology may be mediated by the novel indel through a long-range repressive effect on DIS3 expression. Citation Format: Jason W. Hoskins, Abdisamad Ibrahim, Mickey Emmanuel, Hemang Parikh, Jinping Jia, Irene Collins, Kris Ylaya, Sean F. Altekruse, Stephen M. Hewitt, Gloria M. Petersen, Laufey T. Amundadottir. Functional analysis of the chr13q22.1 pancreatic cancer risk locus suggests allele-specific effects on DIS3 expression with prognostic implications. [abstract]. In: Proceedings of the AACR Special Conference on Pancreatic Cancer: Innovations in Research and Treatment; May 18-21, 2014; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2015;75(13 Suppl):Abstract nr B111.
Pancreatic ductal adenocarcinoma (PDAC), as with all cancer, is driven by dysregulation of genetic programs due to accumulation of somatic mutations, epigenetic modifications and changes in the micro-environment. Holistic views of perturbations in gene expression networks could illuminate key regulators and pathways for this highly lethal cancer. Toward this end, we performed massively-parallel mRNA-sequencing in normal (n = 10) and tumor (n = 8) derived pancreatic tissue samples as well as pancreatic cancer cell lines (n = 9), and determined differential gene expression (DE) patterns. Sub-network enrichment analyses of all expressed genes based on magnitude of DE identified HNF1A as the regulator of the most significantly and consistently dysregulated expression sub-network in our pancreatic tumor samples (median P = 7.56 x 10-7, median rank = 1, range = 1-25). To explore the effect of HNF1A expression in pancreatic tumor-derived cells we generated stable HNF1A-inducible clones in two pancreatic cancer cell lines. Induction of HNF1A overexpression caused severe growth inhibition (5.3-fold, P = 4.5x10-5 for MIA PaCa-2 clones; 7.2-fold, P = 2.2x10-5 for PANC-1 clones), and G0/G1 cell cycle arrest. This was accompanied by down-regulation of 49 out of 84 assayed cell cycle genes, while only 1 displayed increased expression. These data, combined with HNF1A’s direct regulation of pancreatic development and homeostasis genes (i.e. PDX1, PTF1A and NR5A2), suggest it may be an important tumor suppressor in pancreatic cells. Citation Format: Jason W. Hoskins, Marta Flandez, Jinping Jia, Hemang Parikh, Irene Collins, Mickey Emmanuel, Abdisamad Ibrahim, Wenming Xiao, John Powell, Nuria Malats, Gloria M. Petersen, Fransisco X. Real, Laufey T. Amundadottir. Transcriptome analysis in pancreatic cancer reveals a tumor suppressor function for HNF1A. [abstract]. In: Proceedings of the AACR Special Conference on Pancreatic Cancer: Innovations in Research and Treatment; May 18-21, 2014; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2015;75(13 Suppl):Abstract nr B112.
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