Latest News

The Role of Growth Hormone Mediators in Youth-Onset T2D


 

TOPLINE:

Changes in plasma growth hormone mediators such as growth hormone receptor (GHR) and insulin-like growth factor-binding protein 1 (IGFBP-1) were associated with glycemic failure in youth-onset type 2 diabetes (T2D), an analysis of the TODAY trial showed.

METHODOLOGY:

  • In youth, T2D often occurs during or after puberty, hinting at hormonal influences in the development and/or progression of the disease.
  • This secondary analysis assessed the role of growth hormone mediators including insulin-like growth factor-1 (IGF-1), GHR, and IGFBP-1 in glycemic failure in a subset of 398 youths, aged 10-17 years, with a T2D duration of less than 2 years (62% girls; 21% White).
  • The participants were followed up for a mean of 3.9 years.
  • The primary outcomes included glycemic failure, defined as an A1c level of 8% or more for 6 months, or acute metabolic decompensation requiring insulin.
  • Other assessments included baseline and 36-month measures of glycemia, insulin sensitivity, high molecular weight adiponectin, and beta cell function.

TAKEAWAY:

  • Of 398 participants, 182 (46%) experienced glycemic failure, while 216 (54%) retained glycemic control.
  • At 36 months, youths with glycemic failure had lower IGF-1 levels (P < .001) and higher log2 GHR (P = .03) and log2 IGFBP-1 (P = .009) levels than those who maintained glycemic control.
  • A greater increase in IGF-1 level at 36 months was associated with lower odds of glycemic failure (odds ratio [OR], 0.995; P < .001).
  • Increased levels of log2 GHR and log2 IGFBP-1 were associated with higher odds of glycemic failure (OR, 1.75; P = .04 and OR, 1.37; P = .007, respectively). Results were adjusted for body mass index (BMI), suggesting that associations between GHR level and glycemic outcomes exist independent of BMI.
  • Interhormonal correlations suggested an association between glucose metabolism and growth hormone signaling or a shared process leading to changes in both processes.

IN PRACTICE:

“Our study has identified GHR level as a novel biomarker of decrease in glycemic control in youths with T2D,” the study authors wrote. Future research is needed, with an emphasis on assessing alterations in growth hormone mediators which may contribute to diabetes complications in youth.

SOURCE:

The study, published online in JAMA Network Open, was led by Chang Lu, MD, Division of Endocrinology, Boston Children’s Hospital, and Joslin Diabetes Center at Harvard Medical School, Boston, Massachusetts.

LIMITATIONS:

The study did not include a control group (individuals without diabetes). The cohort largely included youth in late puberty or after puberty, affecting subgroup analysis. Moreover, only circulating growth hormone mediators were measured, limiting the identity of the source tissue of the hormone and the target organs.

DISCLOSURES:

Some authors reported receiving grants from the National Institutes of Health and National Institute of Diabetes and Digestive and Kidney Diseases while conducting the study. Also, certain authors reported receiving grants and personal fees from various trusts as well as pharmaceutical, healthcare, and medical technology companies outside the submitted work.

Recommended Reading

Osteoporosis Drug Denosumab May Confer Lower Risk for Diabetes
MDedge Endocrinology
Diabetes Complication Risk Larger in US Small Towns
MDedge Endocrinology
Obesity Affects More Than 1 Billion Around the World
MDedge Endocrinology
Effect of Metformin Across Renal Function States in Diabetes
MDedge Endocrinology
No Increase in Autoimmune Risk Seen With GLP-1 Receptor Agonists and SGLT2 Inhibitors
MDedge Endocrinology
Does worsening metabolic syndrome increase the risk of developing cancer?
MDedge Endocrinology
Study Sounds Alert About GLP-1 RA Use and Aspiration Risk
MDedge Endocrinology
Is a 1-Hour Glucose Test Better at Predicting T2D Risk?
MDedge Endocrinology
Higher Dietary Niacin Tied to Lower Mortality Risk in MASLD
MDedge Endocrinology
Vitamin D Supplement Protects Insulin-Producing Cells in T1D
MDedge Endocrinology