The testis cell type enriched transcriptome Testis cell type enriched transcriptome: Summary Testis cell type enriched transcriptome: Illustrative examples

The testis cell type enriched transcriptome

The main function of the testis is the production of sperm, the male gamete cells that are essential for reproduction, as well as synthesis of hormones that are important for male sex characteristics. The majority of cells in the testis reside in the seminiferous duct, where spermatogenesis takes place. Additional testis-specific cell types are the hormone producing Leydig cells that are located outside the seminiferous ducts.

2532 genes were predicted to have cell type specificity in the testis.

9 cell types profiled
138 very highly enriched genes
705 highly enriched genes
1689 moderately enriched genes

Testis cell type enriched transcriptome: Summary

Genes with predicted cell type specificity within testis are detailed in Table 1. Identified genes are subdivided into 3 specificity categories, based on the difference between the enrichment score in the corresponding cell type, compared to the other cell types profiled in the tissue (see Methods Summary page for details):

Predicted specificity: ´Very high´ - Differential score vs. other profiled cell types within the tissue >0.35
Predicted specificity: ´High´ - Differential score vs. other profiled cell types within the tissue >0.25
Predicted specificity: ´Moderate´ - Differential score vs. other profiled cell types within the tissue >0.15

Table 1. Number of genes in each specificity category in the testis cell types.

Cell type	Very high	High	Moderate	Total enriched
Spermatogonia	9	32	117	158
Spermatocytes	23	54	111	188
Early spermatids	26	237	494	757
Late spermatids	29	169	386	584
Sertoli cells	50	188	376	614
Leydig cells	0	4	16	20
Peritubular cells	0	4	38	42
Endothelial cells	0	12	97	109
Macrophages	1	5	54	60
All cell types	138	705	1689	2532

Figure 1. Bar plot of the number of enriched genes in the cell types of the testis, divided by specificity category

Testis cell type enriched transcriptome: Illustrative examples

Spermatogonia

Spermatogonia are diploid cells that form the basal layer of the seminiferous duct and present the initial phase of spermatogenesis. The spermatogonia undergo asymmetric mitotic cell division resulting in two subtypes, type A cells that have stem cell like properties and maintain the spermatogonia population, and type B spermatogonia that will continue to evolve into preleptotene spermatocytes. Rhox Homeobox Family Member 1 (RHOXF1) is a transcription factor regulated by androgens, which is implicated in human reproduction. MAGE Family Member A4 (MAGEA4) and DDB1 And CUL4 Associated Factor 4 Like 1 (DCAF4L1) are both also predicted to have specificity in spermatogonia, but the function of these proteins is currently unknown.

MAGEA4 - Testis
MAGEA4
RHOXF1 - Testis
RHOXF1
DCAF4L1 - Testis
DCAF4L1

Spermatocytes

Spermatocytes are derived from type B spermatogonia and can be subdivided into primary spermatocytes, which are diploid cells that enter the first meiosis, and secondary spermatocytes, which are haploid cells that and enter the second meiosis, to produce spermatids. Several of the testis-specific proteins localized to spermatocytes are involved in testicular differentiation, proliferation and meiosis. Pachytene spermatocytes are meiotic cells at the very end of prophase I. Synaptonemal Complex Protein 3 (SYCP3) is an essential structural component of the synaptonemal complex involved in synapsis, recombination and segregation of meiotic chromosomes. BEN Domain Containing 2 (BEND2) is thought to participate in protein and DNA interactions which occur during chromatin restructuring or transcription. Helicase, Lymphoid Specific (HELLS) is also likely involved in processes involving DNA strand separation, including replication, repair, recombination, and transcription.

SYCP3 - Testis
SYCP3
BEND2 - Testis
BEND2
HELLS - Testis
HELLS

Early Spermatids

Early spermatids (also called round spermatids) are transcriptionally active haploid cells that have been derived from secondary spermatocytes. These cells begin to develop cell polarity and undergo a complex process of metamorphosis called spermatogenesis. Zona Pellucida Binding Protein (ZPBP) plays a role in acrosome compaction and sperm morphogenesis. Calmegin (CLGN) is a testis-specific endoplasmic reticulum chaperone protein, which is important for normal sperm migration and adhesion and penetration into the egg zona pellucida. Ly-1 antibody reactive clone (LYAR) has numerous functions, including rRNA processing and a role in transcriptional regulation.

ZPBP - Testis
ZPBP
CLGN - Testis
CLGN
LYAR - Testis
LYAR

Late Spermatids

Late spermatids, or elongated spermatids, are transcriptionally inert, and are almost fully developed into mature spermatozoa, with a digestive acrosome covering the head of the spermatid, a long tail, and thickened mid section containing many mitochondria. However the spermatids are still atatched to the walls of the seminiferous duct until fully mature when they are released into the epididymis. Armadillo Repeat Containing 12 (ARMC12) was recently described as having a role in mitochondrial sheath formation, the absence of which causes abnormal mitochondrial coiling along the flagellum, resulting in reduced sperm motility and male sterility. Actin Like 7A (ACTL7A) is a member of a family of actin-related proteins that are involved in diverse cellular processes, including vesicular transport, spindle orientation, nuclear migration and chromatin remodeling, however, its exact function is not known. BPI Fold Containing Family A Member 3 (BPIFA3) was also predicted to be have specificity in late spermatids, but its function is currently unknown.

ARMC12 - Testis
ARMC12
ACTL7A - Testis
ACTL7A
BPIFA3 - Testis
BPIFA3

Sertoli cells

Sertoli cells are interspersed between the developing germ cells, and are sometimes referred to as nurse cells as they function to protect and nurture the developing sperm cells throughout the various stages of spermatogenesis. They also play a role in spermatogenesis itself by transducing hormonal signals, as well as phagocytosing waste portions of spermatids as they condense and shrink in size during development. Fetal And Adult Testis Expressed 1 (FATE1) is involved in the regulation of endoplasmic reticulum (ER)-mitochondria coupling and Prion Like Protein Doppel (PRND) is a membrane glycosylphosphatidylinositol-anchored glycoprotein that is found predominantly in testis, but it function is not well understood. The function of (KIAA1210) is not currently known.

FATE1 - Testis
FATE1
KIAA1210 - Testis
KIAA1210
PRND - Testis
PRND

Peritubular cells

Peritubular cells, or peritubular myoid cells, are thin cells that surround the seminiferous tubule in several layers, and contain smooth-muscle contractile proteins which assist in transport of spermatozoa within the tubules. Peritubular cells also produce connective tissue related proteins that help maintain the structure of the tubule. Collagen Type XV Alpha 1 Chain (KIAA1210), microfibril Associated Protein 4 (MFAP4) and versican (VCAN) are all extracellular matrix proteins involved in cell adhesion and other functions, such as tissue morphogenesis and maintenance.

COL15A1 - Testis
COL15A1
VCAN - Testis
VCAN

Leydig cells

Leydig cells, also known as interstitial cells, are hormone producing cells located outside the seminiferous tubule, and are the primary source of the hormone testosterone in men. Cytochrome B5 Type A (CYB5A) is a membrane bound hemoprotein which functions as an electron carrier for several membrane bound oxygenases. Cytochrome P450 Family 11 Subfamily A Member 1 (CYP11A1) is a member of the cytochrome P450 superfamily of enzymes, which catalyze many reactions involved in drug metabolism and synthesis of cholesterol, steroids and other lipids.

CYB5A - Testis
CYB5A
CYP11A1 - Testis
CYP11A1