Summary of Study ST000948
This data is available at the NIH Common Fund's National Metabolomics Data Repository (NMDR) website, the Metabolomics Workbench, https://www.metabolomicsworkbench.org, where it has been assigned Project ID PR000652. The data can be accessed directly via it's Project DOI: 10.21228/M8D38P This work is supported by NIH grant, U2C- DK119886.
See: https://www.metabolomicsworkbench.org/about/howtocite.php
| Study ID | ST000948 |
| Study Title | Mechanisms for Insulin Resistance in Polycystic Ovary Syndrome: aminoadipic acid, lysine concentrations, and enrichment (part II) |
| Study Summary | To determine how metformin therapy changes lysine and AAA kinetics in PCOS and whether this is associated with improvements in insulin sensitivity. Changes in lysine and AAA flux before and after three months of metformin therapy will be compared to women with PCOS randomized to no treatment for three months. |
| Institute | Mayo Clinic |
| Last Name | Chang |
| First Name | Alice |
| Address | 200 First St. SW, Rochester, Minnesota, 55905, USA |
| Chang.Alice1@mayo.edu | |
| Phone | 507-286-0505 |
| Submit Date | 2018-04-09 |
| Analysis Type Detail | LC-MS |
| Release Date | 2020-04-13 |
| Release Version | 1 |
Select appropriate tab below to view additional metadata details:
Project:
| Project ID: | PR000652 |
| Project DOI: | doi: 10.21228/M8D38P |
| Project Title: | Mayo Pilot and Feasibility: Mechanisms for Insulin Resistance in Polycystic Ovary Syndrome |
| Project Summary: | Polycystic Ovary Syndrome (PCOS), a condition of androgen excess, infrequent ovulation, and insulin resistance is the most common endocrine disorder among premenopausal women. Little is known about the exact mechanisms of insulin resistance in PCOS and how metformin can improve insulin sensitivity, increase the frequency of ovulation and lower androgens in PCOS. Preliminary data from metabolomic analyses of amino acids demonstrate increased concentrations of lysine and its metabolite, α-aminoadipic acid (AAA), in PCOS versus obese controls. Interestingly, greater AAA concentrations predicted the development of type 2 diabetes in the Framingham epidemiologic cohort, experimentally lowers glucose in animal models and increases insulin secretion in vitro. To date, the mechanism for increased circulating concentrations of lysine and AAA in insulin-resistant individuals is not known. Building upon these findings, we have initiated a project to simultaneously study lysine and AAA kinetics for the first time in insulin-resistant individuals using stable isotope tracer methodology. We will evaluate: 1) whether lysine and AAA kinetics are altered in PCOS versus healthy controls; 2) the effect of hyperinsulinemia on lysine and AAA kinetics in PCOS versus controls; 3) whether treatment to improve insulin sensitivity changes lysine and AAA kinetics in PCOS. The long-term goal is to target pathways for the treatment of PCOS and the prevention of type 2 diabetes in PCOS and other insulin-resistant individuals at greater risk for type 2 diabetes. |
| Institute: | Mayo Clinic |
| Last Name: | Chang |
| First Name: | Alice |
| Address: | 200 First St. SW, Rochester, Minnesota, 55905, USA |
| Email: | Chang.Alice1@mayo.edu |
| Phone: | 507-286-0505 |
Subject:
| Subject ID: | SU000987 |
| Subject Type: | Human |
| Subject Species: | Homo sapiens |
| Taxonomy ID: | 9606 |
Factors:
Subject type: Human; Subject species: Homo sapiens (Factor headings shown in green)
| mb_sample_id | local_sample_id | Time point | group |
|---|---|---|---|
| SA056882 | ms6443-7 | 120 | PCOS |
| SA056883 | ms6713-18 | 120 | PCOS |
| SA056884 | ms6712-18 | 120 | PCOS |
| SA056885 | ms6440-7 | 120 | PCOS |
| SA056886 | ms6437-18 | 120 | PCOS |
| SA056887 | ms6438-7 | 120 | PCOS |
| SA056888 | ms6440-18 | 120 | PCOS |
| SA056889 | ms6438-18 | 120 | PCOS |
| SA056890 | ms6715-7 | 120 | PCOS |
| SA056891 | ms6442-7 | 120 | PCOS |
| SA056892 | ms6718-7 | 120 | PCOS |
| SA056893 | ms6717-7 | 120 | PCOS |
| SA056894 | ms6712-7 | 120 | PCOS |
| SA056895 | ms6441-7 | 120 | PCOS |
| SA056896 | ms6439-18 | 120 | PCOS |
| SA056897 | ms6437-7 | 120 | PCOS |
| SA056898 | ms6442-18 | 120 | PCOS |
| SA056899 | ms6441-18 | 120 | PCOS |
| SA056900 | ms6715-18 | 120 | PCOS |
| SA056901 | ms6713-7 | 120 | PCOS |
| SA056902 | ms6718-18 | 120 | PCOS |
| SA056903 | ms6714-18 | 120 | PCOS |
| SA056904 | ms6443-18 | 120 | PCOS |
| SA056905 | ms6714-7 | 120 | PCOS |
| SA056906 | ms6716-18 | 120 | PCOS |
| SA056907 | ms6436-18 | 120 | PCOS |
| SA056908 | ms6439-7 | 120 | PCOS |
| SA056909 | ms6716-7 | 120 | PCOS |
| SA056910 | ms6436-7 | 120 | PCOS |
| SA056911 | ms6717-18 | 120 | PCOS |
| SA056912 | ms6712-8 | 135 | PCOS |
| SA056913 | ms6718-8 | 135 | PCOS |
| SA056914 | ms6443-8 | 135 | PCOS |
| SA056915 | ms6442-8 | 135 | PCOS |
| SA056916 | ms6713-8 | 135 | PCOS |
| SA056917 | ms6712-19 | 135 | PCOS |
| SA056918 | ms6440-19 | 135 | PCOS |
| SA056919 | ms6716-8 | 135 | PCOS |
| SA056920 | ms6436-8 | 135 | PCOS |
| SA056921 | ms6718-19 | 135 | PCOS |
| SA056922 | ms6437-8 | 135 | PCOS |
| SA056923 | ms6715-19 | 135 | PCOS |
| SA056924 | ms6713-19 | 135 | PCOS |
| SA056925 | ms6439-19 | 135 | PCOS |
| SA056926 | ms6716-19 | 135 | PCOS |
| SA056927 | ms6717-19 | 135 | PCOS |
| SA056928 | ms6436-19 | 135 | PCOS |
| SA056929 | ms6437-19 | 135 | PCOS |
| SA056930 | ms6717-8 | 135 | PCOS |
| SA056931 | ms6438-19 | 135 | PCOS |
| SA056932 | ms6439-8 | 135 | PCOS |
| SA056933 | ms6438-8 | 135 | PCOS |
| SA056934 | ms6442-19 | 135 | PCOS |
| SA056935 | ms6714-8 | 135 | PCOS |
| SA056936 | ms6440-8 | 135 | PCOS |
| SA056937 | ms6441-8 | 135 | PCOS |
| SA056938 | ms6714-19 | 135 | PCOS |
| SA056939 | ms6443-19 | 135 | PCOS |
| SA056940 | ms6441-19 | 135 | PCOS |
| SA056941 | ms6715-8 | 135 | PCOS |
| SA056942 | ms6717-9 | 150 | PCOS |
| SA056943 | ms6713-20 | 150 | PCOS |
| SA056944 | ms6714-9 | 150 | PCOS |
| SA056945 | ms6715-20 | 150 | PCOS |
| SA056946 | ms6712-20 | 150 | PCOS |
| SA056947 | ms6713-9 | 150 | PCOS |
| SA056948 | ms6714-20 | 150 | PCOS |
| SA056949 | ms6715-9 | 150 | PCOS |
| SA056950 | ms6716-20 | 150 | PCOS |
| SA056951 | ms6717-20 | 150 | PCOS |
| SA056952 | ms6716-9 | 150 | PCOS |
| SA056953 | ms6441-9 | 150 | PCOS |
| SA056954 | ms6441-20 | 150 | PCOS |
| SA056955 | ms6440-20 | 150 | PCOS |
| SA056956 | ms6443-20 | 150 | PCOS |
| SA056957 | ms6437-20 | 150 | PCOS |
| SA056958 | ms6440-9 | 150 | PCOS |
| SA056959 | ms6438-20 | 150 | PCOS |
| SA056960 | ms6439-9 | 150 | PCOS |
| SA056961 | ms6436-9 | 150 | PCOS |
| SA056962 | ms6718-20 | 150 | PCOS |
| SA056963 | ms6439-20 | 150 | PCOS |
| SA056964 | ms6437-9 | 150 | PCOS |
| SA056965 | ms6438-9 | 150 | PCOS |
| SA056966 | ms6442-9 | 150 | PCOS |
| SA056967 | ms6442-20 | 150 | PCOS |
| SA056968 | ms6712-9 | 150 | PCOS |
| SA056969 | ms6443-9 | 150 | PCOS |
| SA056970 | ms6436-20 | 150 | PCOS |
| SA056971 | ms6718-9 | 150 | PCOS |
| SA056762 | ms6718-5 | -15 | PCOS |
| SA056763 | ms6443-16 | -15 | PCOS |
| SA056764 | ms6437-5 | -15 | PCOS |
| SA056765 | ms6716-5 | -15 | PCOS |
| SA056766 | ms6441-16 | -15 | PCOS |
| SA056767 | ms6436-5 | -15 | PCOS |
| SA056768 | ms6714-5 | -15 | PCOS |
| SA056769 | ms6440-5 | -15 | PCOS |
| SA056770 | ms6439-16 | -15 | PCOS |
| SA056771 | ms6716-16 | -15 | PCOS |
Collection:
| Collection ID: | CO000981 |
| Collection Summary: | We will perform a hyperinsulinemic-euglycemic clamp as previously described except that in this current proposal we will perform the study for 3 hours.(36) The goal for this infusion is to assess the effect of hyperinsulinemia on lysine and AAA kinetics and whether metformin changes the effect of hyperinsulinemia. We will collect samples every 10 min for glucose. 40% dextrose will be infused at a variable rate during the clamp to maintain euglycemia.(36) During the last hour of the clamp, 5 blood samples will be drawn for measurement of stable isotope tracer enrichment and amino acid concentrations. Previous studies have established that the combination of metformin and pioglitazone decrease lysine and AAA concentrations in overweight and obese adults with impaired fasting glucose or untreated diabetes.(7) Aim 3 is designed to establish whether changes in lysine and AAA flux are associated with changes in insulin sensitivity. Measurement of lysine and AAA flux will be repeated in 10 women with PCOS after three months of metformin and 10 women with PCOS randomized to receive no treatment for three months. Insulin sensitivity and other measures of glucose metabolism will be calculated from an oral glucose tolerance test using the oral minimal model as described below. |
| Sample Type: | Blood (plasma) |
Treatment:
| Treatment ID: | TR001001 |
| Treatment Summary: | Ten women with PCOS will receive metformin therapy, and ten women will be randomized to receive no therapy and undergo the same repeat visits after 3 months. Ten age-matched women without PCOS with a BMI < 25 will be recruited as the control group for the baseline visit. Aside from criteria that they do not have PCOS and have a BMI < 25, this control group will have the same inclusion and exclusion criteria below. They will not receive metformin and will not return for repeat visits after 3 months. Metformin therapy: Previous studies with metformin demonstrated improvement in insulin sensitivity as early as 3 months with 1000 mg daily.(5, 33, 34) Metformin will be initiated with 500 mg extended-release tablet daily for one week, 1000 mg daily for one week and then 1500 mg daily. Visits 4 and 5 will be conducted three months after full dose is achieved. Oral glucose tolerance test: After 2 baseline fasting samples, 75 g of oral dextrose will be ingested with blood samples will be drawn at 10’, 20’, 30’, 60’, 90’, 120’, 150’and 180’ for measurement of glucose, insulin, c-peptide. Insulin sensitivity will be calculated using the oral glucose minimal model. Stable isotope tracer infusions (Figure 5): Three days prior to the tracer study, the participants will be placed on a weight-maintaining diet consisting of 50% carbohydrates, 20% protein, and 30% fats. Fat free mass (FFM) measured by dual-energy x-ray absorptiometry will be used for dose calculations of the stable isotope tracers and insulin infusions for the hyperinsulinemic-euglycemic clamp. A priming bolus dose of L-[α-15N]-lysine, 3 to 5 μmol/kg FFM, will be given at the start of a 3 hour infusion of 3 to 5 μmol/kg FFM/hr to achieve a plateau as previously described.(29) At the same time, a priming bolus of 1 to 2 μmol/kg FFM L-[1-13C]-2-aminoadipic acid will be given followed by infusion of 1 to 2 μmol/kg/hr based on prior study.(30) A retrograde hand intravenous line will be placed with the hand placed in a warm box maintained at 140°F to obtain arterialized venous blood samples for measurement of lysine and AAA concentrations and stable isotopic enrichment at steady state and during the clamp. Hyperinsulinemic-euglycemic clamp: We will perform a hyperinsulinemic-euglycemic clamp as previously described except that in this current proposal we will perform the study for 3 hours.(36) The goal for this infusion is to assess the effect of hyperinsulinemia on lysine and AAA kinetics and whether metformin changes the effect of hyperinsulinemia. We will collect samples every 10 min for glucose. 40% dextrose will be infused at a variable rate during the clamp to maintain euglycemia.(36) During the last hour of the clamp, 5 blood samples will be drawn for measurement of stable isotope tracer enrichment and amino acid concentrations. |
Sample Preparation:
| Sampleprep ID: | SP000994 |
| Sampleprep Summary: | Plasma lysine and AAA concentrations and isotopic enrichment will be analyzed as previous described via a Thermo Fisher Q Exactive plus mass spectrometer coupled with a Dionex UltiMate 3000 Binary RSLC liquid chromatograph. |
Combined analysis:
| Analysis ID | AN001556 | AN001557 |
|---|---|---|
| Analysis type | MS | MS |
| Chromatography type | Reversed phase | Reversed phase |
| Chromatography system | Thermo Dionex Ultimate 3000 | Thermo Dionex Ultimate 3000 |
| Column | Unspecified | Unspecified |
| MS Type | ESI | ESI |
| MS instrument type | Orbitrap | Orbitrap |
| MS instrument name | Thermo Q Exactive Plus Orbitrap | Thermo Q Exactive Plus Orbitrap |
| Ion Mode | POSITIVE | POSITIVE |
| Units | uM | MPE |
Chromatography:
| Chromatography ID: | CH001091 |
| Instrument Name: | Thermo Dionex Ultimate 3000 |
| Column Name: | Unspecified |
| Chromatography Type: | Reversed phase |
MS:
| MS ID: | MS001434 |
| Analysis ID: | AN001556 |
| Instrument Name: | Thermo Q Exactive Plus Orbitrap |
| Instrument Type: | Orbitrap |
| MS Type: | ESI |
| MS Comments: | uM |
| Ion Mode: | POSITIVE |
| MS ID: | MS001435 |
| Analysis ID: | AN001557 |
| Instrument Name: | Thermo Q Exactive Plus Orbitrap |
| Instrument Type: | Orbitrap |
| MS Type: | ESI |
| MS Comments: | MPE (molar percent excess ) |
| Ion Mode: | POSITIVE |
