Katrina Simmons scite author profile

Nuclear receptors exert profound effects on mammary gland physiology and have complex roles in the etiology of breast cancer. In addition to receptors for classic steroid hormones such as estrogen and progesterone, the nuclear vitamin D receptor (VDR) interacts with its ligand 1α,25(OH)2D3 to modulate the normal mammary epithelial cell genome and subsequent phenotype. Observational studies suggest that vitamin D deficiency is common in breast cancer patients and that low vitamin D status enhances the risk for disease development or progression. Genomic profiling has characterized many 1α,25(OH)2D3 responsive targets in normal mammary cells and in breast cancers, providing insight into the molecular actions of 1α,25(OH)2D3 and the VDR in regulation of cell cycle, apoptosis, and differentiation. New areas of emphasis include regulation of tumor metabolism and innate immune responses. However, the role of VDR in individual cell types (i.e., epithelial, adipose, fibroblast, endothelial, immune) of normal and tumor tissues remains to be clarified. Furthermore, the mechanisms by which VDR integrates signaling between diverse cell types and controls soluble signals and paracrine pathways in the tissue/tumor microenvironment remain to be defined. Model systems of carcinogenesis have provided evidence that both VDR expression and 1α,25(OH)2D3 actions change with transformation but clinical data regarding vitamin D responsiveness of established tumors is limited and inconclusive. Because breast cancer is heterogeneous, analysis of VDR actions in specific molecular subtypes of the disease may help to clarify the conflicting data. The expanded use of genomic, proteomic and metabolomic approaches on a diverse array of in vitro and in vivo model systems is clearly warranted to comprehensively understand the network of vitamin D regulated pathways in the context of breast cancer.

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Induction of STEAP4 correlates with 1,25‐dihydroxyvitamin D₃ stimulation of adipogenesis in mesenchymal progenitor cells derived from human adipose tissue

Narvaez

Simmons

Brunton

et al. 2013

Journal Cellular Physiology

101

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The vitamin D receptor (VDR) is expressed in human adipocytes and is transiently induced during early adipogenesis in mesenchymal progenitor cell models. VDR null mice exhibit enhanced energy expenditure and reduced adiposity even when fed high fat diets. Adipocyte-specific transgenic-expression of human VDR in mice enhances adipose tissue mass, indicating that VDR activation in adipocytes enhances lipid storage in vivo. In these studies, we conducted genomic profiling and differentiation assays in primary cultures of human adipose-derived mesenchymal progenitor cells to define the role of the VDR and its ligand 1,25-dihydroxyvitamin D3 (1,25D) in adipogenesis. In the presence of adipogenic media, 1,25D promoted lipid accumulation and enhanced the expression of FABP4, FASN, and PPARγ. Mesenchymal cells derived from 6-month old VDR null mice exhibited impaired adipogenesis ex vivo but differentiation was restored by stable expression of human VDR. STEAP4, a gene that encodes a metalloreductase linked to obesity, insulin sensitivity, metabolic homeostasis and inflammation, was highly induced in human adipose cells differentiated in the presence of 1,25D but was minimally affected by 1,25D in undifferentiated precursors. These studies provide a molecular basis for recent epidemiological associations between vitamin D status, body weight and insulin resistance which may have relevance for prevention or treatment of metabolic syndrome and obesity.

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Gene Signatures of 1,25‐Dihydroxyvitamin D₃ Exposure in Normal and Transformed Mammary Cells

Simmons

Beaudin

Narvaez

et al. 2015

J of Cellular Biochemistry

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To elucidate potential mediators of vitamin D receptor (VDR) action in breast cancer, we profiled the genomic effects of its ligand 1,25-dihydroxyvitamin D3 (1,25D) in cells derived from normal mammary tissue and breast cancer. In non-transformed hTERT-HME cells, 483 1,25D responsive entities in 42 pathways were identified, whereas in MCF7 breast cancer cells, 249 1,25D responsive entities in 31 pathways were identified. Only 21 annotated genes were commonly altered by 1,25D in both MCF7 and hTERT-HME cells. Gene set enrichment analysis highlighted eight pathways (including senescence/autophagy, TGFβ signaling, endochondral ossification, and adipogenesis) commonly altered by 1,25D in hTERT-HME and MCF7 cells. Regulation of a subset of immune (CD14, IL1RL1, MALL, CAMP, SEMA6D, TREM1, CSF1, IL33, TLR4) and metabolic (ITGB3, SLC1A1, G6PD, GLUL, HIF1A, KDR, BIRC3) genes by 1,25D was confirmed in hTERT-HME cells and similar changes were observed in another comparable non-transformed mammary cell line (HME cells). The effects of 1,25D on these genes were retained in HME cells expressing SV40 large T antigen but were selectively abrogated in HME cells expressing SV40 + RAS and in MCF7 cells. Integration of the datasets from hTERT-HME and MCF7 cells with publically available RNA-SEQ data from 1,25D treated SKBR3 breast cancer cells enabled identification of an 11-gene signature representative of 1,25D exposure in all three breast-derived cell lines. Four of these 11 genes (CYP24A1, CLMN, EFTUD1, and SERPINB1) were also identified as 1,25D responsive in human breast tumor explants, suggesting that this gene signature may prove useful as a biomarker of vitamin D exposure in breast tissue.

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Biochemical and clinical response after umbilical cord blood transplant in a boy with early childhood‐onset beta‐mannosidosis

Lund

Miller

Eisengart

et al. 2019

Molec Gen & Gen Med

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Background Deficiency in the enzyme β‐mannosidase was described over three decades ago. Although rare in occurrence, the presentation of childhood‐onset β‐mannosidase deficiency consists of hypotonia in the newborn period followed by global development delay, behavior problems, and intellectual disability. No effective pharmacologic treatments have been available. Methods We report 2‐year outcomes following the first umbilical cord blood transplant in a 4‐year‐old boy with early childhood‐onset disease. Results We show restoration of leukocyte β‐mannosidase activity which remained normal at 2 years posttransplant, and a simultaneous increase in plasma β‐mannosidase activity and dramatic decrease in urine‐free oligosaccharides were also observed. MRI of the brain remained stable. Neurocognitive evaluation revealed test point gains, although the magnitude of improvement was less than expected for age, causing lower IQ scores that represent a wider developmental gap between the patient and unaffected peers. Conclusion Our findings suggest that hematopoietic cell transplant can correct the biochemical defect in β‐mannosidosis, although preservation of the neurocognitive trajectory may be a challenge.

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The anti-inflammatory effects of vitamin D in mammary epithelial cells through sCD14 (P1329)

Simmons

Sellati

Welsh

2013

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Many studies have shown vitamin D to regulate immune cell responses, yet few have investigated whether vitamin D alters the immune responses of epithelial cells in barrier tissues, such as the mammary gland, to alter immune signaling within tissue microenvironments. Microarray screening and qPCR of human mammary epithelial cells treated with 1α,25-dihydroxyvitamin D (the active form of vitamin D) identified CD14 as a 1,25D induced gene. To follow up these findings, we examined whether 1,25D induced the expression of membrane CD14 or soluble CD14 and found that 1,25D increased the accumulation of sCD14 in a dose- and time- dependent manner but did not alter mCD14. To determine the effects of 1,25D-induced sCD14 from HME cells on Toll-like receptor 4 activation and cytokine secretion from monocyte-derived macrophages, we incubated HEK-Blue TLR4 reporter cells and differentiated THP1 macrophages in conditioned media from 1,25D-treated HME cells ± purified E.coli lipopolysaccharide. We found that conditioned media from 1,25D-treated cells had no significant effects on TLR4 activation in HEK Blue cells yet did promote the secretion of IL-10 from differentiated THP-1 macrophages in the presence of E.coli lipopolysaccharide. These results are the first to demonstrate vitamin D’s effects on the expression and secretion of CD14 in mammary epithelial cells and support the hypothesis that vitamin D promotes an anti-inflammatory environment via secretion of sCD14 in mammary tissue.

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Katrina Simmons

The impact of vitamin D in breast cancer: genomics, pathways, metabolism

Induction of STEAP4 correlates with 1,25‐dihydroxyvitamin D₃ stimulation of adipogenesis in mesenchymal progenitor cells derived from human adipose tissue

Gene Signatures of 1,25‐Dihydroxyvitamin D₃ Exposure in Normal and Transformed Mammary Cells

Biochemical and clinical response after umbilical cord blood transplant in a boy with early childhood‐onset beta‐mannosidosis

The anti-inflammatory effects of vitamin D in mammary epithelial cells through sCD14 (P1329)

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Katrina Simmons

The impact of vitamin D in breast cancer: genomics, pathways, metabolism

Induction of STEAP4 correlates with 1,25‐dihydroxyvitamin D3 stimulation of adipogenesis in mesenchymal progenitor cells derived from human adipose tissue

Gene Signatures of 1,25‐Dihydroxyvitamin D3 Exposure in Normal and Transformed Mammary Cells

Biochemical and clinical response after umbilical cord blood transplant in a boy with early childhood‐onset beta‐mannosidosis

The anti-inflammatory effects of vitamin D in mammary epithelial cells through sCD14 (P1329)

Contact Info

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Induction of STEAP4 correlates with 1,25‐dihydroxyvitamin D₃ stimulation of adipogenesis in mesenchymal progenitor cells derived from human adipose tissue

Gene Signatures of 1,25‐Dihydroxyvitamin D₃ Exposure in Normal and Transformed Mammary Cells