Editing Leydig cell

{{Short description|Androgen-producing cell adjacent to the seminiferous tubules of the testicle}}
{{Infobox cell
| Name        = Leydig cell
| Width       =
| Image       = Leydig cells - very high mag.jpg
| Caption     = [[Micrograph]] showing a cluster of Leydig cells (center of image). [[H&E stain]].
| Image2      = Testicle-histology-boar-2.jpg
| Caption2    = Histological section through testicular [[parenchyma]] of a [[boar]]. 1 Lumen of convoluted part of the seminiferous tubules, 2 [[spermatid]]s, 3 [[spermatocyte]]s, 4 [[spermatogonium|spermatogonia]], 5 [[Sertoli cell]], 6 [[myofibroblast]]s, 7 Leydig cells, 8 [[capillary|capillaries]]
| Precursor   = 
| System      = 
| Artery      = 
| Vein        = 
| Nerve       = 
| Lymph       = 
}}
'''Leydig cells''', also known as '''interstitial cells of the testes''' and '''interstitial cells of Leydig''', are found adjacent to the [[seminiferous tubules]] in the [[testes|testicle]] and produce [[testosterone]] in the presence of [[luteinizing hormone]] (LH).<ref name="Chabner">{{Cite book|last=Chabner|first=Davi-Ellen|title=The Language of Medicine - E-Book|date=2016|publisher=Elsevier Health Sciences|isbn=978-0-32-337083-7|page=316|url=https://books.google.com/books?id=Ih6KCwAAQBAJ&pg=PA316}}</ref><ref name="Johnson">{{Cite book|last=Johnson|first=Martin H.|title=Essential Reproduction|date=2018|publisher=John Wiley & Sons|isbn=978-1-11-924645-9|page=131|url=https://books.google.com/books?id=3qJGDwAAQBAJ&pg=PA131}}</ref> They are polyhedral in shape and have a large, prominent [[cell nucleus|nucleus]], an [[eosinophilic]] [[cytoplasm]], and numerous lipid-filled vesicles.<ref name="Zhou">{{Cite book|last1=Zhou|first1=Ming|last2=Netto|first2=George|last3=Epstein|first3=Jonathan I|title=Uropathology E-Book|date=2022|publisher=Elsevier Health Sciences|isbn=978-0-32-365396-1|page=428|url=https://books.google.com/books?id=nGxpEAAAQBAJ&pg=PA428}}</ref> Males have two types of leydig cells that appear in two distinct stages of development: the fetal type and the adult type.<ref name="OLC">{{cite journal |last1=Carrasco-Juan |first1=JL |last2=Álvarez-Argüelles Cabrera |first2=H |last3=Martín Corriente |first3=MC |last4=González-Gómez |first4=M |last5=Valladares Parrilla |first5=R |last6=Gutiérrez García |first6=R |last7=Díaz-Flores |first7=L |title=Ovarian Leydig cells (OLC): A histomorphological and immunohistochemical study. |journal=Histology and Histopathology |date=October 2017 |volume=32 |issue=10 |pages=1089–1097 |doi=10.14670/HH-11-876 |pmid=28127725}}</ref>


==Structure==
The mammalian Leydig cell is a polyhedral epithelioid cell with a single eccentrically located ovoid nucleus. The nucleus contains one to three prominent [[Nucleolus|nucleoli]] and large amounts of dark-staining peripheral [[heterochromatin]]. The acidophilic cytoplasm usually contains numerous membrane-bound lipid droplets and large amounts of [[smooth endoplasmic reticulum]] (SER).<ref name="Rhoades">{{Cite book|last1=Rhoades|first1=Rodney A.|last2=Bell|first2=David R.|title=Medical Physiology: Principles for Clinical Medicine|date=2022|publisher=Lippincott Williams & Wilkins|isbn=978-1-97-516045-6|page=2031|url=https://books.google.com/books?id=tydaEAAAQBAJ&pg=PT2031}}</ref> Besides the abundance of SER with scattered patches of [[rough endoplasmic reticulum]], several [[Mitochondrion|mitochondria]] are also prominent within the [[cytoplasm]]. [[Reinke crystals]] have [[lipofuscin]] pigment and rod-shaped crystal-like structures 3 to 20 micrometres in diameter.<ref name="Partin">{{Cite book|last1=Partin|first1=Alan W.|last2=Wein|first2=Alan J.|last3=Kavoussi|first3=Louis R.|last4=Peters|first4=Craig A.|last5=Dmochowski|first5=Roger R.|title=Campbell Walsh Wein Urology|date=2020|publisher=Elsevier Health Sciences|isbn=978-0-32-367227-6|page=1124|url=https://books.google.com/books?id=RdfLDwAAQBAJ&pg=PA1134}}</ref>

=== Life cycle ===
Fetal-type Leydig cells are present from the 8th to the 20th week of [[gestation]], which produce enough testosterone for masculinisation of a male fetus. It's unclear what they differentiate from (as of 2010). Their testosterone-producing precursors are demonstrably present in the 7th week of gestation. Starting from the 8th week, their growth and maintenance are supported by [[luteinizing hormone]] (LH). Dhh, PGDF-A, PGDF-B, GATA-4, and IGF receptor I may also play a role. They start to regress from the 20th week.<ref name="pmid20190545">{{cite journal |vauthors=Svechnikov K, Landreh L, Weisser J, Izzo G, Colón E, Svechnikova I, Söder O |title=Origin, development and regulation of human Leydig cells |journal=Horm Res Paediatr |volume=73|issue=2 |pages=93–101 |year=2010 |pmid=20190545 |doi=10.1159/000277141|s2cid=5986143 |doi-access=free }}</ref>

Adult-type Leydig cells differentiate in the postnatal testis and are dormant until [[puberty]].<ref name="Nieschlag">{{Cite book|last1=Nieschlag|first1=Eberhard|last2=Behre|first2=Hermann M.|title=Testosterone: Action - Deficiency - Substitution|date=2012|publisher=Springer Science & Business Media|isbn=978-3-64-272185-4|page=9|url=https://books.google.com/books?id=jn3nCAAAQBAJ&pg=PA9}}</ref> They originate from Leydig stem cells, which resemble peritubular cells. The stem cells express PGDFRα but not LH receptor or steroidogenic enzymes. Sertoli cells secrete critical factors (LIF, PDGF-α Dhh) to trigger differentiation into progenitor Leydig cells. A combination of growth factors and hormones during puberty (LH, T<sub>3</sub>, IGF-1, PDGF-α) trigger the progenitor cells to transition into immature Leydig cells, which are elongated and express high levels of steroidogenic enzymes. These immature cells turn into adult Leydig cells. Once present in a large enough number, the adult Leydig cells do not tend to divide further or be differentiated. Still, at least in mice, a mechanism exists to make more through differentiation when all Leydig cells are killed.<ref>{{cite journal |last1=Stanley |first1=E |last2=Lin |first2=CY |last3=Jin |first3=S |last4=Liu |first4=J |last5=Sottas |first5=CM |last6=Ge |first6=R |last7=Zirkin |first7=BR |last8=Chen |first8=H |title=Identification, proliferation, and differentiation of adult Leydig stem cells. |journal=Endocrinology |date=October 2012 |volume=153 |issue=10 |pages=5002–10 |doi=10.1210/en.2012-1417 |pmid=22865373|pmc=3512003 }}</ref>

==Androgen production==
Leydig cells release a class of [[hormones]] called [[androgens]] (19-carbon [[steroid]]s).<ref name=":0" /> They secrete [[testosterone]], [[androstenedione]] and [[dehydroepiandrosterone]] (DHEA), when stimulated by the [[luteinizing hormone]] (LH), which is released from the [[anterior pituitary]] in response to [[Gonadotropin-releasing hormone|gonadotropin releasing hormone]] which in turn is released by the [[hypothalamus]].<ref name=":0" />

LH binds to its receptor ([[Luteinizing hormone/choriogonadotropin receptor|LHCGR]]) which is a [[G protein-coupled receptor|G-protein coupled receptor]] and consequently increases the production of [[Cyclic adenosine monophosphate|cAMP]].<ref name=":0" /> cAMP, in turn through [[protein kinase A]] activation, stimulates cholesterol translocation from intracellular sources (primarily the [[Cell membrane|plasma membrane]] and intracellular stores) to the mitochondria, firstly to the [[Mitochondrion#Outer membrane|outer mitochondrial membrane]] and then cholesterol needs to be translocated to the [[inner mitochondrial membrane]] by [[steroidogenic acute regulatory protein]], which is the rate-limiting step in steroid biosynthesis. This is followed by [[pregnenolone]] formation from the translocated cholesterol via the [[cholesterol side-chain cleavage enzyme]], which is found in the inner mitochondrial membrane, eventually leading to testosterone synthesis and secretion by Leydig cells.<ref name=":0">{{Cite journal|last1=Zirkin|first1=Barry R|last2=Papadopoulos|first2=Vassilios|date=July 2018|title=Leydig cells: formation, function, and regulation|journal=Biology of Reproduction|volume=99|issue=1|pages=101–111|doi=10.1093/biolre/ioy059|issn=0006-3363|pmc=6044347|pmid=29566165}}</ref>

In rats, [[prolactin]] (PRL) increases the response of Leydig cells to LH by increasing the number of LH receptors expressed on Leydig cells.<ref name="Steinbach">{{Cite book|last1=Steinbach|first1=Thomas J.|last2=Patrick|first2=Daniel J.|last3=Cosenza|first3=Mary Ellen|title=Toxicologic Pathology for Non-Pathologists |date=2019|publisher=Springer Nature|isbn=978-1-49-399777-0|page=1124|url=https://books.google.com/books?id=lya7DwAAQBAJ&pg=PA419}}</ref>

==Clinical significance==
[[Image:Leydig cell tumour3.jpg|thumb|right|100px|[[Micrograph]] of a [[Leydig cell tumour]]. [[H&E stain]].]]
Leydig cells may grow uncontrollably and form a [[Leydig cell tumour]]. These may be hormonally active, i.e. secrete testosterone. The function of [[Reinke crystals]] is unknown, but they appear in the case of Leydig cell tumours.<ref name="Partin"/> They are found in less than half of all Leydig cell tumors, but when present, they may serve to confirm the diagnosis of a Leydig cell tumor.<ref name="Agha">{{cite journal |vauthors=Al-Agha O, Axiotis C |title=An in-depth look at Leydig cell tumor of the testis |journal=Arch Pathol Lab Med |volume=131 |issue=2 |pages=311–7 |year=2007 |pmid=17284120 |doi=10.5858/2007-131-311-AILALC}}</ref><ref name="Reinke1">{{cite web | author= Ramnani, Dharam M | title=Leydig Cell Tumor : Reinke's Crystalloids | url=http://www.webpathology.com/image.asp?case=38&n=3 | date=2010-06-11 | access-date=2011-11-06}}</ref> No other interstitial cell within the testes has a nucleus or cytoplasm with these characteristics, making identification relatively easy.

While any age is susceptible to a Leydig cell tumour, Leydig cell tumours are more common in people aged 5 to 10 and 30 to 35.<ref name="Jameson">{{Cite book|last1=Jameson|first1= J. Larry|last2=De Groot|first2=Leslie J.|title=Endocrinology: Adult and Pediatric|date=2015|publisher=Elsevier Health Sciences|isbn=978-0-32-332195-2|page=2365|url=https://books.google.com/books?id=xmLeBgAAQBAJ&pg=PA2365}}</ref> A Leydig cell tumour in a child usually causes [[precocious puberty]].<ref name="Jameson"/> About 10% of boys with the tumour have [[gynecomastia]].<ref name="Jameson"/> Although a Leydig cell tumour is always [[benign tumor|benign]] in children, it is [[malignant]] in 10% to 15% of adults.<ref name="Jameson"/> It is the most common [[testicular cancer]] of non-[[germ cell]] origin.<ref name="Henningsen">{{Cite book|last1=Henningsen|first1=Charlotte|last2=Kuntz|first2=Kathryn|last3=Youngs|first3=Diane|title=Clinical Guide to Sonography: Exercises for Critical Thinking|date=2013|publisher=Elsevier Health Sciences|isbn=978-0-32-309164-0|page=350|url=https://books.google.com/books?id=HU7orJzrZNwC&pg=PA350}}</ref>

[[Sonography]] may be used to identify [[cystic]] areas, but it is unable to tell benign tumours apart from malignant tumours.<ref name="Henningsen"/>

[[adrenoleukodystrophy|Adrenomyeloneuropathy]] is another example of a disease affecting the Leydig cell.<ref name="Chovel-Sella">{{Cite book|last1=Chovel-Sella|first1=Alum|last2=Halper|first2=Alyssa|title=Endocrine Conditions in Pediatrics: A Practical Guide|chapter=Adrenal Insufficiency|date=2020|publisher=Springer Nature|isbn=978-3-03-052215-5|page=286|chapter-url=https://books.google.com/books?id=YXT_DwAAQBAJ&pg=PA286}}</ref> In this case, a person's testosterone may fall despite higher-than-normal levels of LH and [[follicle-stimulating hormone]] (FSH).

== In the ovary ==
While Leydig cells are predominantly associated with testosterone production in the male testes, there is a type of '''ovarian hilus cell''' found in the [[ovaries]] of adult females. They mainly appear in the hilum of ovary, but can appear elsewhere in the ovary close to blood vessels and nerves. They are very similar to Leydig cells in function (producing testosterone) and morphology, and can arguably be called '''ovarian Leydig cells''' (OLCs). Every examine ovary in the 2017 study, healthy or diseased, has identifiable OLCs.<ref name="OLC"/> They seem to differentiate from neural crest cells.<ref>{{cite journal |last1=Carrasco-Juan |first1=JL |last2=González-Gómez |first2=M |last3=Tapia |first3=O |last4=García-Hernández |first4=S |last5=Vega-Falcón |first5=A |last6=Méndez-Medina |first6=R |last7=Cabrera |first7=HÁ |last8=Díaz-Flores |first8=L |title=The origin of ovarian Leydig cells: a possibly solved enigma? |journal=Human Cell |date=September 2024 |volume=37 |issue=5 |pages=1544–1552 |doi=10.1007/s13577-024-01098-3 |pmid=38967841}}</ref>

When overgrown the OLCs can cause abnormally high androgen levels. This usually happens after menopause. There are two cases:
* [[Leydig cell tumour]], where the cells form a tumor.<ref>{{cite web |title=Leydig cell tumor |url=https://www.pathologyoutlines.com/topic/ovarytumorleydig.html |website=www.pathologyoutlines.com}}</ref>
** [[Sertoli–Leydig cell tumour]] tends to happen in the second or the third decade of a woman's life. It has happened in a younger woman where it was initially mistaken as PCOS or CAH.<ref>{{cite journal |last1=Paudyal |first1=P |last2=Gurung |first2=G |last3=Baral |first3=J |last4=Kharel |first4=N |title=Sertoli Leydig Cell Tumour Initially Misdiagnosed as Polycystic Ovarian Syndrome and Congenital Adrenal Hyperplasia: A Case Report. |journal=Journal of the Nepal Medical Association |date=22 November 2020 |volume=58 |issue=231 |pages=923–926 |doi=10.31729/jnma.5045 |pmid=34506429|pmc=7775022 }}</ref>
* [[Leydig cell hyperplasia]], where there are only microscopic aggregates of OLC.<ref>{{cite web |title=Leydig cell hyperplasia |url=https://www.pathologyoutlines.com/topic/ovaryleydigcellhyperplasia.html |website=www.pathologyoutlines.com}}</ref>

==Etymology==
Leydig cells are named after the German anatomist [[Franz Leydig]], who discovered them in 1850.<ref>{{WhoNamedIt|synd|625}}</ref>

==Additional images==
<gallery>
File:Gray1114.png|Section of a genital cord of the testis of a human embryo 3.5&nbsp;cm long
File:Leydig cell tumour2.jpg|Intermediate magnification [[micrograph]] of a Leydig cell tumour, [[H&E stain]]
File:Leydig cell tumour3.jpg|High magnification [[micrograph]] of a Leydig cell tumour, [[H&E stain]]
File:Leydig cells.JPG|Cross-section of seminiferous tubules; arrows indicate location of Leydig cells
</gallery>

==See also==
* [[Sertoli cell]]
* [[Sertoli-Leydig cell tumour]]
*[[List of human cell types derived from the germ layers]]

==References==
{{Reflist|2}}

==External links==
*{{BUHistology|16907loa}}
*[https://web.archive.org/web/20070501202041/http://www2.ufp.pt/~pedros/qfisio/reproduction.htm Reproductive Physiology]
*[https://web.archive.org/web/20070311152658/http://www.umassmed.edu/faculty/graphics/700/Leefig1.jpg Diagram at umassmed.edu]

{{Male reproductive system}}
{{Endocrine system anatomy}}
{{Authority control}}

{{DEFAULTSORT:Leydig Cell}}
[[Category:Steroid hormone secreting cells]]
[[Category:Animal reproductive system]]
[[Category:Endocrine system anatomy]]
[[Category:Human cells]]
[[Category:Scrotum]]