Growth hormone induces tyrosine phosphorylation but does not alter insulin-like growth factor-I gene expression in human IM9 lymphocytes

in Journal of Molecular Endocrinology
Authors:
P E Clayton
Search for other papers by P E Clayton in
Current site
Google Scholar
PubMedClose
,
R N Day
Search for other papers by R N Day in
Current site
Google Scholar
PubMedClose
,
C M Silva
Search for other papers by C M Silva in
Current site
Google Scholar
PubMedClose
,
P Hellmann
Search for other papers by P Hellmann in
Current site
Google Scholar
PubMedClose
,
K H Day
Search for other papers by K H Day in
Current site
Google Scholar
PubMedClose
, and
M O Thorner
Search for other papers by M O Thorner in
Current site
Google Scholar
PubMedClose
View More View Less
DOI:
https://doi.org/10.1677/jme.0.0130127
Volume/Issue:
Volume 13: Issue 2
Article Type:
Research Article
Page Range:
127–136
Online Publication Date:
Oct 1994
Restricted access

USD  $0.01
USD  $0.01

USD  $0.01
USD  $0.01

USD  $1.00
USD  $1.00

USD  $0.01
USD  $0.01

USD  $0.01
USD  $0.01

USD  $0.01
USD  $0.01

USD  $0.01
USD  $0.01

USD  $0.01
USD  $0.01

USD  $0.01
USD  $0.01

USD  $0.01
USD  $0.01

USD  $1.00
USD  $1.00

USD  $1.00
USD  $1.00

USD  $1.00
USD  $1.00

USD  $1.00
USD  $1.00

USD  $1.00
USD  $1.00

ABSTRACT

GH induces hepatic IGF-I synthesis by increasing transcription of its gene. IGF-I is synthesized, however, in many other tissues where the effect of GH on its gene expression is less well characterized. IGF-I and GH are produced by human lymphocytes and may function as autocrine regulators of lymphoproliferation. We have therefore used the human IM9 lymphocyte cell line to (A) define the IGF-I gene transcripts expressed and (B) investigate the effect of GH on early (protein tyrosine phosphorylation) and late (changes in IGF-I mRNA levels) events in intracellular signal transduction. Multiple IGF-I mRNA species, ranging in size from 0·9 to 5·8 kb, were detected by Northern hybridization of poly(A)+ mRNA from IM9 cells. The human IGF-I gene contains at least six exons and alternative splicing produces a number of transcripts. Solution hybridization with exon-specific riboprobes and amplification by PCR using exon-specific primers revealed that multiple transcripts were expressed in IM9 cells, and that exon 2 was the dominant leader exon.

Treatment of IM9 cells with 200 ng recombinant human (rh)GH/ml led to the specific tyrosine phosphorylation of three intracellular proteins (93, 120 and 134 kDa), which are involved in the initial signalling of the GH transduction pathway. However a solution hybridization assay using the IGF-IA specific riboprobe on IM9 cell RNA from similar experiments revealed that GH treatment did not change IGF-I gene expression.

This study has demonstrated (A) that the IGF-I gene is expressed in human IM9 lymphocytes, (B) that in contrast to other human tissue, exon 2 is the major leader exon, and (C) that rhGH induces tyrosine phosphorylation of 93, 120 and 134 kDa proteins but does not alter IGF-I gene expression. The IM9 cell may form an important model to investigate a GH transduction pathway not coupled to the IGF-I gene.

Journal of Molecular Endocrinology is committed to supporting researchers in demonstrating the impact of their articles published in the journal.

The two types of article metrics we measure are (i) more traditional full-text views and pdf downloads, and (ii) Altmetric data, which shows the wider impact of articles in a range of non-traditional sources, such as social media.

More information is on the Reasons to publish page.

Sept 2018 onwards Past Year Past 30 Days
Full Text Views 1 1 0
PDF Downloads 2 2 0

 

  • Collapse
  • Expand
Print ISSN:
0952-5041
Online ISSN:
1479-6813
Page(s):
10
Article Type:
Research Article
Print Publication Date:
01 Jan 1994
Online Publication Date:
Oct 1994