Michael F. Coleman scite author profile

Mitochondrial activity and metabolic reprogramming influence the phenotype of cancer cells and resistance to targeted therapy. We previously established that an insulin-like growth factor 1 (IGF-1)-inducible mitochondrial UTP carrier (PNC1/SLC25A33) promotes cell growth. This prompted us to investigate whether IGF signaling is essential for mitochondrial maintenance in cancer cells and whether this contributes to therapy resistance. Here we show that IGF-1 stimulates mitochondrial biogenesis in a range of cell lines. In MCF-7 and ZR75.1 breast cancer cells, IGF-1 induces peroxisome proliferator-activated receptor γ coactivator 1β (PGC-1β) and PGC-1α-related coactivator (PRC). Suppression of PGC-1β and PRC with siRNA reverses the effects of IGF-1 and disrupts mitochondrial morphology and membrane potential. IGF-1 also induced expression of the redox regulator nuclear factor-erythroid-derived 2-like 2 (NFE2L2 alias NRF-2). Of note, MCF-7 cells with acquired resistance to an IGF-1 receptor (IGF-1R) tyrosine kinase inhibitor exhibited reduced expression of PGC-1β, PRC, and mitochondrial biogenesis. Interestingly, these cells exhibited mitochondrial dysfunction, indicated by reactive oxygen species expression, reduced expression of the mitophagy mediators BNIP3 and BNIP3L, and impaired mitophagy. In agreement with this, IGF-1 robustly induced BNIP3 accumulation in mitochondria. Other active receptor tyrosine kinases could not compensate for reduced IGF-1R activity in mitochondrial protection, and MCF-7 cells with suppressed IGF-1R activity became highly dependent on glycolysis for survival. We conclude that IGF-1 signaling is essential for sustaining cancer cell viability by stimulating both mitochondrial biogenesis and turnover through BNIP3 induction. This core mitochondrial protective signal is likely to strongly influence responses to therapy and the phenotypic evolution of cancer.

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Pyruvate carboxylase and cancer progression

Kiesel

Sheeley

Coleman

et al. 2021

Cancer Metab

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Pyruvate carboxylase (PC) is a mitochondrial enzyme that catalyzes the ATP-dependent carboxylation of pyruvate to oxaloacetate (OAA), serving to replenish the tricarboxylic acid (TCA) cycle. In nonmalignant tissue, PC plays an essential role in controlling whole-body energetics through regulation of gluconeogenesis in the liver, synthesis of fatty acids in adipocytes, and insulin secretion in pancreatic β cells. In breast cancer, PC activity is linked to pulmonary metastasis, potentially by providing the ability to utilize glucose, fatty acids, and glutamine metabolism as needed under varying conditions as cells metastasize. PC enzymatic activity appears to be of particular importance in cancer cells that are unable to utilize glutamine for anaplerosis. Moreover, PC activity also plays a role in lipid metabolism and protection from oxidative stress in cancer cells. Thus, PC activity may be essential to link energy substrate utilization with cancer progression and to enable the metabolic flexibility necessary for cell resilience to changing and adverse conditions during the metastatic process.

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FES-related tyrosine kinase activates the insulin-like growth factor-1 receptor at sites of cell adhesion

et al. 2018

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IGF-1 receptor (IGF-1R) and integrin cooperative signaling promotes cancer cell survival, proliferation, and motility, but whether this influences cancer progression and therapy responses is largely unknown. Here we investigated the non-receptor tyrosine adhesion kinase FES-related (FER), following its identification as a potential mediator of sensitivity to IGF-1R kinase inhibition in a functional siRNA screen. We found that FER and the IGF-1R co-locate in cells and can be co-immunoprecipitated. Ectopic FER expression strongly enhanced IGF-1R expression and phosphorylation on tyrosines 950 and 1131. FER phosphorylated these sites in an IGF-1R kinase-independent manner and also enhanced IGF-1-mediated phosphorylation of SHC, and activation of either AKT or MAPK-signaling pathways in different cells. The IGF-1R, β1 Integrin, FER, and its substrate cortactin were all observed to co-locate in cell adhesion complexes, the disruption of which reduced IGF-1R expression and activity. High FER expression correlates with phosphorylation of SHC in breast cancer cell lines and with a poor prognosis in patient cohorts. FER and SHC phosphorylation and IGF-1R expression could be suppressed with a known anaplastic lymphoma kinase inhibitor (AP26113) that shows high specificity for FER kinase. Overall, we conclude that FER enhances IGF-1R expression, phosphorylation, and signaling to promote cooperative growth and adhesion signaling that may facilitate cancer progression.

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Cell Intrinsic and Systemic Metabolism in Tumor Immunity and Immunotherapy

Coleman

Cozzo

Pfeil

et al. 2020

Cancers

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Immune checkpoint inhibitor (ICI) therapy has shown extraordinary promise at treating cancers otherwise resistant to treatment. However, for ICI therapy to be effective, it must overcome the metabolic limitations of the tumor microenvironment. Tumor metabolism has long been understood to be highly dysregulated, with potent immunosuppressive effects. Moreover, T cell activation and longevity within the tumor microenvironment are intimately tied to T cell metabolism and are required for the long-term efficacy of ICI therapy. We discuss in this review the intersection of metabolic competition in the tumor microenvironment, T cell activation and metabolism, the roles of tumor cell metabolism in immune evasion, and the impact of host metabolism in determining immune surveillance and ICI therapy outcomes. We also discussed the effects of obesity and calorie restriction—two important systemic metabolic perturbations that impact intrinsic metabolic pathways in T cells as well as cancer cells.

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The obesity-breast cancer link: a multidisciplinary perspective

Devericks

Carson

McCullough

et al. 2022

Cancer Metastasis Rev

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Obesity, exceptionally prevalent in the USA, promotes the incidence and progression of numerous cancer types including breast cancer. Complex, interacting metabolic and immune dysregulation marks the development of both breast cancer and obesity. Obesity promotes chronic low-grade inflammation, particularly in white adipose tissue, which drives immune dysfunction marked by increased pro-inflammatory cytokine production, alternative macrophage activation, and reduced T cell function. Breast tissue is predominantly composed of white adipose, and developing breast cancer readily and directly interacts with cells and signals from adipose remodeled by obesity. This review discusses the biological mechanisms through which obesity promotes breast cancer, the role of obesity in breast cancer health disparities, and dietary interventions to mitigate the adverse effects of obesity on breast cancer. We detail the intersection of obesity and breast cancer, with an emphasis on the shared and unique patterns of immune dysregulation in these disease processes. We have highlighted key areas of breast cancer biology exacerbated by obesity, including incidence, progression, and therapeutic response. We posit that interception of obesity-driven breast cancer will require interventions that limit protumor signaling from obese adipose tissue and that consider genetic, structural, and social determinants of the obesity–breast cancer link. Finally, we detail the evidence for various dietary interventions to offset obesity effects in clinical and preclinical studies of breast cancer. In light of the strong associations between obesity and breast cancer and the rising rates of obesity in many parts of the world, the development of effective, safe, well-tolerated, and equitable interventions to limit the burden of obesity on breast cancer are urgently needed.

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Short-Term Dexamethasone Therapy for Bronchopulmonary Dysplasia: Acute Effects and 1-Year Follow-Up

et al. 1987

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Eight ventilator-dependent infants with bronchopulmonary dysplasia (BPD) were treated with dexamethasone (0.5 mg/kg/day). Therapy was initiated at 19.3 ± 3.9 days of age, continued at the initial dose for 7 days, then tapered over 2 weeks. The clinical course of these infants with BPD was compared to that of 8 similar ventilatordependent infants with uncomplicated hyaline membrane disease (HMD). At study entry, the BPD patients had significantly higher ventilator rates, peak inspiratory pressures, mean airway pressures, alveolar-arterial oxygen gradients and fraction of inspired oxygen (FiO(2)) values. After 7 days of dexamethasone therapy, ventilator rates, peak inspiratory pressures, mean airway pressures, FiO(2) values and alveolar-arterial oxygen gradients improved significantly. At this time, ventilator rates, peak inspiratory pressures and FiCb values were similar to those of patients with uncomplicated HMD. BPD patients were extubated after 6.5 ± 2.4 days of therapy. The incidences of septicemia, rickets and retinopathy of prematurity were similar in the BPD and uncomplicated HMD patients. Most dexamethasone-treated patients developed arterial hypertension during the first 48 h of therapy. Blood pressures returned to normal within 7 days of stopping therapy. All BPD patients had cosyntropin responses tested 5.5 ± 2.6 weeks after stopping therapy. Six were normal. Two had inadequate responses. At 1 year adjusted age, the dexamethasone- treated BPD infants and HMD infants had similar radiographic bone ages, similar growth patterns and similar scores on the Bayley infant development scale. Dexamethasone was useful in the treatment of early BPD. Used as short-term therapy, the drug had minimal complications and no long-term sequelae.

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Triiodothyronine (T3) concentration and therapy in autistic children

Abbassi

Linscheid

Coleman

1978

J Autism Dev Disord

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The clinical and biochemical status of thyroid function of patients with an autistic syndrome was investigated. The study consisted of 13 patients between the ages of 7 and 21 years. There was no clinical evidence for hypothyroidism in any patient, and T3, T4, and TSH concentrations were within the normal range. Two patients who had retarded bone ages were treated with triiodothyronine for 6 months. Hyperthyroidism developed when T3 levels exceeded physiologic concentrations in these patients. The concept that the clinical response to triiodothyronine in autistic patients results from correction of thyroid dysfunction is not supported by these findings.

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Congenital central hypoventilation syndrome. A report of successful experience with bilateral diaphragmatic pacing.

Coleman¹,

Boros²,

Huseby³

et al. 1980

Archives of Disease in Childhood

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