Marisa M. Fisher scite author profile

Elevated ratios of circulating unmethylated to methylated preproinsulin (INS) DNA have been suggested to reflect β-cell death in type 1 diabetes (T1D). We tested the hypothesis that absolute levels (rather than ratios) of unmethylated and methylated INS DNA differ between subjects with new-onset T1D and control subjects and assessed longitudinal changes in these parameters. We used droplet digital PCR to measure levels of unmethylated and methylated INS DNA in serum from subjects at T1D onset and at 8 weeks and 1 year post-onset. Compared with control subjects, levels of both unmethylated and methylated INS DNA were elevated at T1D onset. At 8 weeks post-onset, methylated INS DNA remained elevated, but unmethylated INS DNA fell. At 1 year postonset, both unmethylated and methylated INS DNA returned to control levels. Subjects with obesity, type 2 diabetes, and autoimmune hepatitis exhibited lower levels of unmethylated and methylated INS compared with subjects with T1D at onset and no differences compared with control subjects. Our study shows that elevations in both unmethylated and methylated INS DNA occurs in new-onset T1D and that levels of these DNA species change during T1D evolution. Our work emphasizes the need to consider absolute levels of differentially methylated DNA species as potential biomarkers of disease.

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Successful treatment of neonatal severe hyperparathyroidism with cinacalcet in two patients

Fisher

Cabrera

Imel

2015

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SummaryNeonatal severe hyperparathyroidism (NSHPT) is a rare disorder caused by inactivating calcium-sensing receptor (CASR) mutations that result in life-threatening hypercalcemia and metabolic bone disease. Until recently, therapy has been surgical parathyroidectomy. Three previous case reports have shown successful medical management of NSHPT with cinacalcet. Here we present the detailed description of two unrelated patients with NSHPT due to heterozygous R185Q CASR mutations. Patient 1 was diagnosed at 11 months of age and had developmental delays, dysphagia, bell-shaped chest, and periosteal bone reactions. Patient 2 was diagnosed at 1 month of age and had failure to thrive, osteopenia, and multiple rib fractures. Cinacalcet was initiated at 13 months of age in patient 1, and at 4 months of age in patient 2. We have successfully normalized their parathyroid hormone and alkaline phosphatase levels. Despite the continuance of mild hypercalcemia (11–12 mg/dl), both patients showed no hypercalcemic symptoms. Importantly, patient 1 had improved neurodevelopment and patient 2 never experienced any developmental delays after starting cinacalcet. Neither experienced fractures after starting cinacalcet. Both have been successfully managed long-term without any significant adverse events. These cases expand the current literature of cinacalcet use in NSHPT to five successful reported cases. We propose that cinacalcet may be considered as an option for treating the severe hypercalcemia and metabolic bone disease found in infants and children with inactivating CASR disorders.Learning points NSHPT due to mutations in the CASR gene occurs with hypercalcemia and metabolic bone disease, but not always with severe critical illness in infancy.NSHPT should be considered in the differential diagnosis for a newborn with a bell-shaped chest, osteopenia, and periosteal reactions.Neurodevelopmental consequences may occur in children with hypercalcemia and may improve during treatment.Calcimimetics can be used to successfully treat the pathophysiology of NSHPT directly to control serum calcium levels.

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Detection of Islet β-Cell Death in Vivo by Multiplex PCR Analysis of Differentially Methylated DNA

Fisher

Chumbiauca

Mather

et al. 2013

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Noninvasive detection of early β-cell death in type 1 diabetes might identify individuals in whom therapeutic interventions would preserve β-cell mass and prevent hyperglycemia. Recent studies in mice have shown that β-cell death produces a corresponding increase in unmethylated preproinsulin (PPI) DNA in serum. Here, we report the development of a novel assay using dual fluorescent-probe multiplex PCR (TaqMan) to detect differential methylation of circulating PPI DNA. Key assay features include low background signals, linear assay output across a large range of values, and simultaneous detection of methylated and unmethylated PPI DNA in a single reaction. We defined the "unmethylation index" as a summary parameter that reflects the relative amounts of unmethylated vs methylated PPI DNA. To validate this assay's ability to detect β-cell death in vivo, we measured the unmethylation index in the serum of diabetic mouse models, including high- and multiple low-dose streptozotocin-induced diabetes, and the nonobese diabetic mouse model of type 1 diabetes. Our data show a significantly increased unmethylation index concordant with the known timeline of β-cell death that precedes the onset of hyperglycemia. Subsequently, we observed a decrease in the unmethylation index following diabetes development, likely reflecting the absence of further β-cell death in the pancreas. We conclude that simultaneous measurement of methylated and unmethylated PPI DNA using the multiplex PCR method described here is a readily available and sensitive indicator of dying β-cells that may be useful to track diabetes progression and response to therapeutic intervention.

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What is in our environment that effects puberty?

Fisher

Eugster

2014

Reproductive Toxicology

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Recent studies indicate that the onset of puberty is occurring at increasingly younger ages. Many etiologies have been hypothesized to be involved, but environmental exposures are among the most worrisome. Multiple organizations have endorsed the need to study and provide clinical awareness regarding the effect of a child’s environment on pubertal timing. This review article summarizes the current understanding of the major environmental influences on pubertal timing, focusing on factors for which the most scientific evidence exists. The research reviewed addresses intrinsic factors unique to each individual, naturally occurring endocrine disruptors and chemical endocrine disruptors. In each category, evidence was found for and against the involvement of specific environmental factors on pubertal timing. Ultimately, an individual’s environment is likely comprised of many aspects that collectively contribute to the timing of puberty. The need for research aimed at elucidating the effects of numerous specific yet disparate forms of exposures is emphasized.

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Marisa M. Fisher

Elevations in Circulating Methylated and Unmethylated Preproinsulin DNA in New-Onset Type 1 Diabetes

Successful treatment of neonatal severe hyperparathyroidism with cinacalcet in two patients

Detection of Islet β-Cell Death in Vivo by Multiplex PCR Analysis of Differentially Methylated DNA

What is in our environment that effects puberty?

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