Development of a multidisciplinary colorectal and pelvic health program: Program implementation and clinical impact.

INTRODUCTION: Pediatric patients with complex colorectal and genitourinary conditions often require coordinated multidisciplinary care; however, this coordinated care can be hard to structure and deliver. The purpose of this paper is to review the development and implementation of a multidisciplinary colorectal and pelvic health program, one year after the program's initiation. METHODS: This is an observational retrospective 1-year study (10/1/2017 to 9/30/2018). In fiscal year (FY) 2018, a multidisciplinary colorectal and pelvic health program was initiated. The program development incorporated bimonthly team meetings, educational conferences, and initiation of three clinics: a complex colorectal and genitourinary reconstruction clinic, a bowel management clinic, and a colonic motility clinic. Conditions treated included complex anorectal and cloacal malformations, Hirschsprung disease, and idiopathic constipation. The fiscal year was selected to provide comparative administrative data after program implementation. RESULTS: During the study period, 121 patients underwent comprehensive collaborative evaluation of which 58 (47%) were new to the institution compared to 12 (19%) new patients in the previous year (p < 0.001). In FY 2018, there were 130 procedures performed and 512 collaborative visits with an average of 47 visits per month. This was a 3.4-fold increase in visits compared to FY2017 (171 visits). Of the new patients, 60% (35/58), traveled a median of 181 miles, representing 33 statewide counties, and 4 states compared to a median of 93 miles in the previous fiscal year (p = 0.004). CONCLUSION: The development of a colorectal and pelvic health program is feasible and requires a collaborative approach, necessitating multiple service lines within an institution. Program creation and implementation can result in rapid institutional clinical growth by filling a local and regional need through coordinated multidisciplinary care. LEVEL OF EVIDENCE: IV.

Histone chaperone CHAF1A inhibits differentiation and promotes aggressive neuroblastoma.

Neuroblastoma arises from the embryonal neural crest secondary to a block in differentiation. Long-term patient survival correlates inversely with the extent of differentiation, and treatment with retinoic acid or other prodifferentiation agents improves survival modestly. In this study, we show the histone chaperone and epigenetic regulator CHAF1A functions in maintaining the highly dedifferentiated state of this aggressive malignancy. CHAF1A is a subunit of the chromatin modifier chromatin assembly factor 1 and it regulates H3K9 trimethylation of key target genes regulating proliferation, survival, and differentiation. Elevated CHAF1A expression strongly correlated with poor prognosis. Conversely, CHAF1A loss-of-function was sufficient to drive neuronal differentiation in vitro and in vivo. Transcriptome analysis of cells lacking CHAF1A revealed repression of oncogenic signaling pathways and a normalization of glycolytic metabolism. Our findings demonstrate that CHAF1A restricts neural crest differentiation and contributes to the pathogenesis of high-risk neuroblastoma.

In vivo Lineage-tracing Studies in a Cancer Stem Cell Population in Neuroblastoma.

Tumors are comprised of heterogeneous subpopulations that may exhibit differing capacity for differentiation, self-renewal, and tumorigenicity. In vivo lineage-tracing studies are a powerful tool for defining the role of tumor subpopulations in tumor growth and as targets for therapeutic agents. This protocol describes using a neuroblastoma cancer cell line transduced with two different fluorescent proteins (GFP and td Tomato) to track the specific contributions of cells expressing the GCSF receptor (CD114+) or not (CD114-) on tumor growth in vivo.

G-CSF receptor positive neuroblastoma subpopulations are enriched in chemotherapy-resistant or relapsed tumors and are highly tumorigenic.

Neuroblastoma is a neural crest-derived embryonal malignancy, which accounts for 13% of all pediatric cancer mortality, primarily due to tumor recurrence. Therapy-resistant cancer stem cells are implicated in tumor relapse, but definitive phenotypic evidence of the existence of these cells has been lacking. In this study, we define a highly tumorigenic subpopulation in neuroblastoma with stem cell characteristics, based on the expression of CSF3R, which encodes the receptor for granulocyte colony-stimulating factor (G-CSF). G-CSF receptor positive (aka G-CSFr(+) or CD114(+)) cells isolated from a primary tumor and the NGP cell line by flow cytometry were highly tumorigenic and capable of both self-renewal and differentiation to progeny cells. CD114(+) cells closely resembled embryonic and induced pluripotent stem cells with respect to their profiles of cell cycle, miRNA, and gene expression. In addition, they reflect a primitive undifferentiated neuroectodermal/neural crest phenotype revealing a developmental hierarchy within neuroblastoma tumors. We detected this dedifferentiated neural crest subpopulation in all established neuroblastoma cell lines, xenograft tumors, and primary tumor specimens analyzed. Ligand activation of CD114 by the addition of exogenous G-CSF to CD114(+) cells confirmed intact STAT3 upregulation, characteristic of G-CSF receptor signaling. Together, our data describe a novel distinct subpopulation within neuroblastoma with enhanced tumorigenicity and a stem cell-like phenotype, further elucidating the complex heterogeneity of solid tumors such as neuroblastoma. We propose that this subpopulation may represent an additional target for novel therapeutic approaches to this aggressive pediatric malignancy.