Study of the insulin-like peptide 3 in human platelets

Borg, Mathias

January 2009

<p>The insulin-like 3 peptide is autocrine/paracrine insulin-related hormone with a size of approximately 6kDa [1]. It mediates through a leucine richG-coupled receptor named LGR8. INSL3 is mainly expressed in human Leydig cells and is directly responsible for migration of the testis during the pre-natal period in maledevelopment. [2]</p><p>INSL3 mRNA has recently been verified in human platelets whereas no mRNA has been detected for LGR8 (by Sanofi-Aventis GmbH in Frankfurt,Germany), indicating that INSL3 might be released through paracrine functions at sites of platelet adhesion and aggregation upon a vascular injury.Furthermore, has activated platelets been shown to translate essential proteins upon activation, in a term called “signal-dependent protein synthesis”.The B-Cell lymphoma-3 protein (BCL-3) is an example of such a protein [3], and there is a possibility that INSL3 might be also.</p><p>In this thesis we wanted to detect the relaxin- like peptide 3 hormone (INSL3). (Its function, location and the timeframe of its release, when/if it issecreated in stimulated platelets).The source of platelet-derived INSL3 can be found with Western blotting and Enzyme immunoassay.</p><p>Detection of the insulin-like 3 peptide in human platelets turned out to be a difficult challenge due to the small amount of INSL3 secretion uponplatelet activation; hence the total amount of INSL3 produced might be below detection limit.</p>

INSL3

Insulin-like peptide 3

Biochemistry

Biokemi

Clinical chemistry

Klinisk kemi

Study of the insulin-like peptide 3 in human platelets

Borg, Mathias

January 2009

The insulin-like 3 peptide is autocrine/paracrine insulin-related hormone with a size of approximately 6kDa [1]. It mediates through a leucine richG-coupled receptor named LGR8. INSL3 is mainly expressed in human Leydig cells and is directly responsible for migration of the testis during the pre-natal period in maledevelopment. [2] INSL3 mRNA has recently been verified in human platelets whereas no mRNA has been detected for LGR8 (by Sanofi-Aventis GmbH in Frankfurt,Germany), indicating that INSL3 might be released through paracrine functions at sites of platelet adhesion and aggregation upon a vascular injury.Furthermore, has activated platelets been shown to translate essential proteins upon activation, in a term called “signal-dependent protein synthesis”.The B-Cell lymphoma-3 protein (BCL-3) is an example of such a protein [3], and there is a possibility that INSL3 might be also. In this thesis we wanted to detect the relaxin- like peptide 3 hormone (INSL3). (Its function, location and the timeframe of its release, when/if it issecreated in stimulated platelets).The source of platelet-derived INSL3 can be found with Western blotting and Enzyme immunoassay. Detection of the insulin-like 3 peptide in human platelets turned out to be a difficult challenge due to the small amount of INSL3 secretion uponplatelet activation; hence the total amount of INSL3 produced might be below detection limit.

INSL3

Insulin-like peptide 3

Biochemistry

Biokemi

Clinical chemistry

Klinisk kemi

Characterizing the extracellular domains of the relaxin and INSL3 receptors, LGR7 and LGR8

Scott, Daniel James

Unknown Date

Relaxin and insulin-like peptide-3 (INSL3) are closely related reproductive hormones that are derived from a common ancestor. Relaxin was initially named for its ability to relax the pubic symphysis in pregnant guinea pigs at parturition. Since then relaxin has been found to be involved in many physiological processes based on its ability to stimulate the breakdown and remodeling of collagen fibers. INSL3 is also known as Leydig insulin-like hormone and the relaxin-like factor, and is produced by the Leydig cells in the testis, the thecal and luteal cells of the ovary, the thyroid, placenta and mammary gland. INSL3 induces transabdominal testicular descent by stimulating the development of the gubernacular ligament, which subsequently swells and contracts to pull the fetal testes towards the inguinal wall. In adults however, evidence suggests that INSL3 is involved in reproductive function, acting to promote the survival of male and female germ cells.

The MA-10 Cell Line as a Model of insl3 Regulation and Leydig Cell Function

Strong, Mary E

01 June 2011

Leydig cells produce testosterone in response to luteinizing hormone (LH) via the cyclic adenosine monophosphate (cAMP)/protein kinase A pathway. Additionally, these cells are responsible for producing insulin-like peptide 3 (INSL3), a peptide hormone that is essential for testicular descent. The insl3 promoter in Leydig cells can be activated by cAMP through the transcription factor Nur77, which has also been shown to regulate the promoters of the steroidogenic enzymes, cyp17 and 3b-hsd. While the mechanism of LH action on testosterone production is well characterized, the effect of LH on insl3 abundance has yet to be shown directly. The MA-10 Leydig cells treated with hCG exhibited a transient and robust increase in nur77 mRNA, while insl3 mRNA abundance remained unchanged. Further, cAMP failed to affect insl3 mRNA, though nur77 mRNA abundance was significantly increased. Inhibition of LH-receptor-linked signal transduction pathways in the presence of hCG implicated multiple signaling networks in the regulation of both insl3 and nur77. Treatment with hCG or cAMP did not affect the abundance of 3b-hsd mRNA. Interestingly, though the MA-10 cell line has been reported to lack CYP17 activity and mRNA and so produce progesterone instead of testosterone, cyp17 mRNA was present and inducible by hCG and cAMP. The addition of hCG, testosterone, nor the combination of hCG and testosterone affected insl3 mRNA abundance. Though hCG consistently increased nur77 mRNA abundance, the addition of testosterone did not enhance the effects of hCG. Collectively, these results indicate that insl3 is regulated by factors other than LH/CG and cAMP in the MA-10 cell line.

Leydig Cell

INSL3

cryptorchidism

testicular descent

cell signaling

Other Animal Sciences

Causal Factors of Cryptorchidism and Endocrine Disurpting Chemicals Such as Prenatal Maternal Cigarette Smoke: A Narrative Review

Morrissey, Andrew R.

01 January 2016

Cryptorchidism is a male congenital disorder with an unspecified, multifactorial etiology. This review evaluated the strength of select factors in the development of cryptorchidism to better understand its etiology. The strength of relationship between factors and their respective functions during testicular descent was evaluated. Factors evaluated in the causal pathway include the signaling mechanisms Desert Hedgehog (DHH), Insulin-like Hormone 3 (INSL3) and Platelet-Derived Growth Factor (PDGF), as well as sex hormone regulation (androgen: estrogen ratio, aromatase expression). Articles supporting a factor in testicular descent were evaluated and scored. These scores were summed to create the “Step Score” for each step in the causal pathway. An arrow system was developed which ranked the strength of each pathway step as either “weak”, “moderate” or “strong”. Thus, step scores and the strength of factors in the pathological pathway were determined: DHH (15-moderate), PDGF (10-weak), INSL3 (24-strong) and Androgen: Estrogen ratio, Aromatase (23-strong). The pathological pathway produced by this review represents a literature based perspective of the research regarding cryptorchidism etiology. Literature indicates that prenatal exposure to endocrine disrupting chemicals in animals and humans may lead to abnormal genital development. Recently, prenatal maternal cigarette smoke was demonstrated to be a risk factor for cryptorchidism. This controversial finding was explored in the context of endocrine disrupting chemicals. However, literature has provided very little evidence in support of this hypothesis and more research is needed to better evaluate prenatal maternal smoking as a risk factor for undescended testis.

cigarette smoking and cryptorchidism

INSL3 and cryptorchidism

PDGF and cryptorchidism

prenatal smoking and cryptorchidism

EDCs and DHH

Endocrinology, Diabetes, and Metabolism

Untersuchungen zur Regulation des Insl3 Gens / Regulation Analysis of the Insl3 Gene

Thamm, Tarvo

29 January 2003

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Gubernaculum

Insl3

Apg-1

Descensus Testis

transgene Maus

testisspezifisch

gubernaculum

Insl3

Apg-1

descensus testis

transgenic mouse

testisspecific

42.23