Changes in the Expression Pattern of Luteinizing Hormone Receptor mRNA in Rat Testis during Degeneration of Seminiferous Epithelium (original) (raw)
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Journal of Endocrinology, 1999
In the rat, the cytotoxic drug ethylene dimethane sulfonate (EDS) selectively eliminates mature Leydig cells (LCs) from testicular interstitium, activating a complex process of proliferation and differentiation of pre-existing LC precursors. We observed previously that after EDS treatment, the early LC precursors persistently express a truncated 1.8 kb form of LH receptor (LHR) mRNA. This prompted us to study whether experimental cryptorchidism, known to alter the process of LC repopulation, can influence the pattern of testicular LHR mRNA expression after EDS administration. EDS treatment completely eliminated mature LCs both in control and unilaterally cryptorchid (UC) rats. This response was followed by gradual reappearance of newly formed, functionally active LCs, as evidenced by the recovery in testicular LHR content and plasma testosterone levels in both experimental groups. Noteworthy, the rate of LC repopulation was higher in the abdominal testes of UC rats, in keeping with ...
Temporal Changes in the Local Expression of Central Hormone-Regulating Factors in Rat Testis
Development & reproduction, 2024
Present study aimed to investigate the temporal changes in expression of some reproductive hormones in testis, originally found in hypothalamus and pituitary. Rats were sacrificed on postnatal day 23 (PND23; immature), pubertal (PND53) and PND 81 (young adult). The testicular RNAs were extracted, and semi-quantitative PCRs for gonadotropin-releasing hormone (GnRH), kisspeptin 1 (KiSS1), pituitary adenylate cyclase-activating polypeptide (PACAP), LH subunits and LH receptor were performed. Transcript levels of GnRH and KiSS1 at PND23 were significantly higher than levels of PND53 and PND81 (p<0.001). PACAP mRNA level at PND23 was significantly lower than those of PND53 and PND81 (p<0.001). The mRNA levels of both testis type and pituitary type luteinizing hormone β subunit (tLHβ and pLHβ, respectively) at PND23 were significantly lower than levels of PND53 and PND81 (p<0.001). The mRNA level of glycoprotein hormone common alpha subunit (Cgα) at PND23 was significantly lower than those of PND53 and PND81 (p<0.001). Present study revealed the intratesticular expression of KiSS1 and GnRH showed a very similar trend while the expression of PACAP in the testis showed reversed pattern. The expressions of LHβ subunits (tLHβ and pLHβ) were very low during immature stage then increased significantly during puberty and early adulthood. Our attempt to study the local role(s) of intratesticular factors will be helpful to achieve precise understanding on the testis physiology and pathology.
Expression of Luteinizing Hormone (LH) Subunit Genes in Mouse Testis
Development & reproduction, 2017
Gonadotropins are heterodimers consisting an alpha chain (Cgα) and a beta chain. Interestingly, presence of complicated LH-β transcripts in rat testis was accidently found; testicular LH-β transcripts were confined in seminiferous tubules to spermatids, and the translated products were localized in the elongated spermatids. We hypothesized that mouse testis has potential to produce the tissue specific LH-β with similar structure to the rat testicular forms. To verify our hypothesis, we examined the adult mouse (ICR) testis using RT-PCR and immunohistochemistry. The PCR revealed the presence of the identical products in the reactions for three LH subunit types. The expected product sizes for mouse Cgα and LH-β known as pituitary type were 224 bp and 503 bp, respectively. The testicular type LH-β products were produced by a primer set based on the rat sequences, with unexpected size of 800 bp. Sequencing revealed that the proximal and distal parts (2-82 and 661- 773 bp, respectively) ...
2010
Androgen receptor (AR) immunohistochemistry was performed in an archival collection of adult human cryptorchid testes to determine whether AR cellular distribution and intensity of immunostaining were functions of the severity of cellular dysgenesis. The seminiferous tubule histology of cryptorchid testes collected from adults is marked by three specific patterns. 1) Seminiferous tubules are characterized as maintaining focal areas of germinal cell differentiation (albeit incomplete) that are interspersed with 2) tubules composed of Sertoli cells only, these latter cells being principally of the adult type, although dysgenetic and immature Sertoli cells may also be detected.
The Journal of Clinical Endocrinology & Metabolism, 2001
Androgen receptor (AR) immunohistochemistry was performed in an archival collection of adult human cryptorchid testes to determine whether AR cellular distribution and intensity of immunostaining were functions of the severity of cellular dysgenesis. The seminiferous tubule histology of cryptorchid testes collected from adults is marked by three specific patterns. 1) Seminiferous tubules are characterized as maintaining focal areas of germinal cell differentiation (albeit incomplete) that are interspersed with 2) tubules composed of Sertoli cells only, these latter cells being principally of the adult type, although dysgenetic and immature Sertoli cells may also be detected.
International Journal of Andrology, 1990
High doses of hCG were administered to immature rats of different ages and the animals killed 48 h later. Serum testosterone increased 2 to 4-fold over control values 48 h after hCG. In-vitro androgen production showed different patterns according to age. Animals younger than 35 days, when treated with hCG, retained the ability to respond to in-vitro gonadotrophic stimulation. This ability was lost in testes from rats aged 45 days. The number of free LH-receptors 48 h after hCG diminished with increasing age to become non-detectable at 35 and 45 days. In control animals the proportion of differentiated Leydig cells in relation to their mesenchymal precursors increased progressively with age to reach highest values at 45 days. hCG administration induced a shift of the cellular composition of the interstitium toward the more mature cell types. hCG has a predominantly trophic action on mesenchymal precursors in young rats, promoting their differentiation. These effects are minimal in the differentiated Leydig cells in older animals. It is proposed that the observed biochemical responses are the result of the balance between the increase in LH receptors and steroidogenic enzymes in the developing new generation of young Leydig cells and the down-regulation of receptors and enzymatic lesions in fully differentiated Leydig cells.
Molecular Endocrinology, 1991
Down-regulation of plasma membrane receptors by homologous hormones has been found in diverse cell types. In testicular Leydig and ovarian luteal cells, treatment with LH/hCG decreases LH receptor content. Although suppression of LH-binding sites may result from ligand-induced receptor internalization, sequestration, and/or phosphorylation, the gonadotropins may also regulate receptor mRNA levels. We examined the regulation of testis LH receptor mRNAs in adult rats that received 10 or 200 IU hCG, using cRNA probes derived from the 5' extracellular domain (EC) or the 3' transmembrane domain (TM) of the rat receptor cDNA. Probe EC hybridized to predominant signals of 7 and 1.8 kilobases (kb) and weaker signals of 4.2 and 2.5 kb. However, probe TM hybridized to the three larger forms of the LH receptor mRNA, but not to the 1.8kb species, suggesting that the latter form lacks the transmembrane domain. After 6 and 12 h of treatment with 200 or 10 III hCG, respectively, hybridization to the larger mRNA species decreased by more than 60%, preceding decreases in testicular [ 125 l]hCG binding. These transcripts were further inhibited (>93%) between 24-72 h after hCG treatment and returned to 40% and 100% of control levels by days 6 and 9, respectively. In contrast, the truncated 1.8-kb LH receptor transcript was not affected by hCG treatment, indicating a differential suppressive effect of the ligand on its receptor mRNA levels. In the ovary, hybridization to probe EC revealed four transcripts with similar sizes as those found in the testes, with a predominant 7-kb species. In contrast to the male, administration of 20 IU hCG to pseudopregnant females decreased hybridization of all four LH receptor mRNAs by 90% 12 h posttreatment, compared to a 50% decrease in LH receptor content. LH receptor content and mRNA levels remained sup-pressed (>70%) on day 3 of treatment, and by 7 days post-hCG, LH receptor mRNAs and binding partially returned toward control levels. Thus, ligandinduced LH receptor down-regulation is preceded by decreased LH receptor mRNA transcripts of 7, 4.2, and 2.5 kb in both gonads. However, in the testes, the truncated 1.8-kb species, lacking a portion of the transmembrane domain, is not hormonally regulated. Thus, gonadotropins may down-regulate their receptors by decreasing the levels of receptor transcripts. The lack of suppression of a truncated transcript in the testis further suggests tissue-specific differential regulation of LH receptor mRNA processing. (Molecular Endocrinology 5: 397-403, 1991)
The action of luteinizing hormone on the testis
The Journal of Steroid Biochemistry and Molecular Biology, 1991
Luteinizing hormone (LH) and human chorionic gonadotrophin (hCG) receptors are coupled to intracellular effector systems, most notably adenylate cyclase, through guanyl nucleotide-binding proteins or G-proteins. The molecular mechanism involved in the dynamic coupling of the LH/hCG receptor however, are not known. It has been postulated that receptor aggregation at the molecular level plays a critical role in this process. There have been attempts to understand the receptor association and dissociation phenomena at the molecular level. One of them involves the participation of the major histocompatibility complex (MHC) class I antigen in the mechanism of receptor activation and/or expression. One molecular basis for these mechanisms consists of a physical interaction between MHC proteins and receptors to form "compound receptors" able to transfer a hormonal signal to the cell. Using a photo-reactive probe we demonstrated that the LH/hCG receptors and the class I antigens are closely associated in the membrane. Thus, it is possible to form covalent complexes of hCG and class I antigens through the binding of the hormone to specific receptors. These findings imply that LH/hCG receptors and the MHC class I antigens may interact at the level of the plasma membrane in the mechanism of LH action. We also performed experiments using a single cell and limiting stimulation to a patch of membrane. The results stimulating the cell in a localized area suggested that even if all components are entirely free to float there is a constraint in the localization of the receptor, G-protein, and/or the effector, supporting the constraint dissociation model. Within a limited area subunits could dissociate, but they would not be free to diffuse throughout the membrane. Moreover the concept of compartmentalization that has been utilized to explain some inconsistencies in second-messenger action now can be proved by experimental design.