To study the effect of chronic excess growth hormone on adipose tissue, we performed RNA sequencing in adipose tissue biopsies from patients with acromegaly (n = 7) or non-functioning pituitary adenom Show more
To study the effect of chronic excess growth hormone on adipose tissue, we performed RNA sequencing in adipose tissue biopsies from patients with acromegaly (n = 7) or non-functioning pituitary adenomas (n = 11). The patients underwent clinical and metabolic profiling including assessment of HOMA-IR. Explants of adipose tissue were assayed ex vivo for lipolysis and ceramide levels. Patients with acromegaly had higher glucose, higher insulin levels and higher HOMA-IR score. We observed several previously reported transcriptional changes (IGF1, IGFBP3, CISH, SOCS2) that are known to be induced by GH/IGF-1 in liver but are also induced in adipose tissue. We also identified several novel transcriptional changes, some of which may be important for GH/IGF responses (PTPN3 and PTPN4) and the effects of acromegaly on growth and proliferation. Several differentially expressed transcripts may be important in GH/IGF-1-induced metabolic changes. Specifically, induction of LPL, ABHD5, and NRIP1 can contribute to enhanced lipolysis and may explain the elevated adipose tissue lipolysis in acromegalic patients. Higher expression of TCF7L2 and the fatty acid desaturases FADS1, FADS2 and SCD could contribute to insulin resistance. Ceramides were not different between the two groups. In summary, we have identified the acromegaly gene expression signature in human adipose tissue. The significance of altered expression of specific transcripts will enhance our understanding of the metabolic and proliferative changes associated with acromegaly. Show less
A. Barkan · 1993 · The Plant cell · added 2026-04-24
The molecular basis for the photosynthetic defect in four nuclear mutants of maize was investigated. Mutants hcf7, cps1-1, cps1-2, and cps2 contained reduced levels of many chloroplast-encoded protein Show more
The molecular basis for the photosynthetic defect in four nuclear mutants of maize was investigated. Mutants hcf7, cps1-1, cps1-2, and cps2 contained reduced levels of many chloroplast-encoded proteins without corresponding deficiencies in chloroplast mRNAs. Many chloroplast mRNAs were associated with abnormally few ribosomes, indicating that the protein deficiencies were due to global defects in chloroplast translation. These mutants were used to study the effects of reduced ribosome association on the metabolism of chloroplast RNAs. The level of the rbcL mRNA was reduced fourfold in each mutant, but was unaltered in other nonphotosynthetic mutants with normal chloroplast translation. These results suggest that the rbcL mRNA is destabilized as a consequence of its decreased association with ribosomes. The fact that many other chloroplast mRNAs accumulated to normal levels demonstrated that a decreased association with ribosomes does not significantly alter their stabilities or processing. hcf7 seedlings had a gross defect in the processing of the 16S rRNA: the primary lesion in this mutant may be a defect in 16S rRNA processing itself. Show less