In
developmental biology
Developmental biology is the study of the process by which animals and plants grow and develop. Developmental biology also encompasses the biology of Regeneration (biology), regeneration, asexual reproduction, metamorphosis, and the growth and di ...
, the
cells
Cell most often refers to:
* Cell (biology), the functional basic unit of life
Cell may also refer to:
Locations
* Monastic cell, a small room, hut, or cave in which a religious recluse lives, alternatively the small precursor of a monastery w ...
that give rise to the
gametes
A gamete (; , ultimately ) is a haploid cell that fuses with another haploid cell during fertilization in organisms that reproduce sexually. Gametes are an organism's reproductive cells, also referred to as sex cells. In species that produce t ...
are often set aside during
embryonic cleavage. During development, these cells will
differentiate into
primordial germ cells
Primordial may refer to:
* Primordial era, an era after the Big Bang. See Chronology of the universe
* Primordial sea (a.k.a. primordial ocean, ooze or soup). See Abiogenesis
* Primordial nuclide, nuclides, a few radioactive, that formed before ...
, migrate to the location of the
gonad
A gonad, sex gland, or reproductive gland is a mixed gland that produces the gametes and sex hormones of an organism. Female reproductive cells are egg cells, and male reproductive cells are sperm. The male gonad, the testicle, produces sper ...
, and form the
germline
In biology and genetics, the germline is the population of a multicellular organism's cells that pass on their genetic material to the progeny (offspring). In other words, they are the cells that form the egg, sperm and the fertilised egg. They ...
of the animal.
Creation of germ plasm and primordial germ cells
Cleavage in most animals segregates cells containing
germ plasm
Germ plasm () is a biological concept developed in the 19th century by the German biologist August Weismann. It states that heritable information is transmitted only by germ cells in the gonads (ovaries and testes), not by somatic cells. The r ...
from other cells. The germ plasm effectively turns off gene expression to render the genome of the cell inert. Cells expressing germ plasm become
primordial germ cells
Primordial may refer to:
* Primordial era, an era after the Big Bang. See Chronology of the universe
* Primordial sea (a.k.a. primordial ocean, ooze or soup). See Abiogenesis
* Primordial nuclide, nuclides, a few radioactive, that formed before ...
(PGCs) which will then give rise to the
gametes
A gamete (; , ultimately ) is a haploid cell that fuses with another haploid cell during fertilization in organisms that reproduce sexually. Gametes are an organism's reproductive cells, also referred to as sex cells. In species that produce t ...
. The germ line development in mammals, on the other hand, occurs by induction and not by an endogenous germ plasm.
Germ plasm in fruit fly
Germ plasm has been studied in detail in Drosophila. The posterior pole of the embryo contains necessary materials for the fertility of the fly. This cytoplasm, pole plasm, contains specialized materials called polar granules and the
pole cell In early ''Drosophila'' development, the first 13 cells pass through mitosis are nuclear divisions (karyokinesis) without cytokinesis, resulting in a multinucleate cell (generally referred to as a syncytium, but strictly a coenocyte). Pole cells a ...
s are the precursors to primordial germ cells.
Pole plasm is organized by and contains the proteins and mRNA of the posterior group genes (such as
oskar Oskar may refer to:
* oskar (gene), the Drosophila gene
* Oskar (given name) Oscar or Oskar is a masculine given name of Irish origin.
Etymology
The name is derived from two elements in Irish: the first, ''os'', means "deer"; the second element, ' ...
,
nanos gene, Tudor, vasa, and Valois). These genes play a role in germ line development to localize nanos mRNA to the posterior and localize germ cell determinants. Drosophila progeny with mutations in these genes fail to produce pole cells and are thus sterile, giving these mutations the name 'grandchildless'. The genes
oskar Oskar may refer to:
* oskar (gene), the Drosophila gene
* Oskar (given name) Oscar or Oskar is a masculine given name of Irish origin.
Etymology
The name is derived from two elements in Irish: the first, ''os'', means "deer"; the second element, ' ...
, nanos and germ cell-less (gcl) have important roles. Oskar is sufficient to recruit the other genes to form functional germ plasm. Nanos is required to prevent mitosis and somatic differentiation and for the pole cells to migrate to function as PGCs (see next section). Gcl is necessary (but not sufficient) for pole cell formation. In addition to these genes, Pgc polar granule component blocks phosphorylation and consequently activation of RNA polymerase II and shuts down transcription.
Germ plasm in amphibians
Similar germ plasm has been identified in Amphibians in the polar cytoplasm at the vegetal pole. This cytoplasm moves to the bottom of the blastocoel and eventually ends up as its own subset of endodermal cells. While specified to produce germ cells, the germ plasm does not irreversibly commit these cells to produce gametes and no other cell type.
Migration of primordial germ cells
Fruit flies
The first phase of migration in Drosophila occurs when the pole cells move passively and infold into the midgut invagination. Active migration occurs through repellents and attractants. The expression of wunen in the endoderm repels the PGCs out. The expression of columbus and hedgehog attracts the PGCs to the mesodermal precursors of the gonad. Nanos is required during migration. Regardless of PGC injection site, PGCs are able to correctly migrate to their target sites.
Zebrafish
In zebrafish, the PGCs express two CXCR4 transmembrane receptor proteins. The signaling system involving this protein and its ligand, Sdf1, is necessary and sufficient to direct PGC migration in fish.
Frogs
In frogs, the PGCs migrate along the mesentery to the gonadal mesoderm facilitated by orientated extracellular matrix with fibronectin. There is also evidence for the CXCR4/Sdf1 system in frogs.
Birds
In birds, the PGCs arise from the epiblast and migrate to anteriorly of the primitive streak to the germinal crest. From there, they use blood vessels to find their way to the gonad. The CXCR4/Sdf1 system is also used, though may not be the only method necessary.
Mammals
In the mouse,
primordial germ cells (PGCs) arise in the posterior
primitive streak
The primitive streak is a structure that forms in the early embryo in amniotes. In amphibians the equivalent structure is the blastopore. During early embryonic development, the embryonic disc becomes oval shaped, and then pear-shaped with the ...
of the embryo
and start to migrate around 6.25 days after conception. PGCs start to migrate to the embryonic
endoderm
Endoderm is the innermost of the three primary germ layers in the very early embryo. The other two layers are the ectoderm (outside layer) and mesoderm (middle layer). Cells migrating inward along the archenteron form the inner layer of the gast ...
and then to the
hindgut
The hindgut (or epigaster) is the posterior ( caudal) part of the alimentary canal. In mammals, it includes the distal one third of the transverse colon and the splenic flexure, the descending colon, sigmoid colon and up to the ano-rectal juncti ...
and finally towards the future
genital ridge
The genital ridge (or gonadal ridge) is the precursor to the gonads. The genital ridge initially consists mainly of mesenchyme and cells of underlying mesonephric origin. Once oogonia enter this area they attempt to associate with these somatic cel ...
s where the somatic gonadal precursors reside.
This migration requires a series of attractant and repellent cues as well as a number of adhesion molecules such as E-cadherin
Cadherin-1 or Epithelial cadherin (E-cadherin), (not to be confused with the APC/C activator protein CDH1) is a protein that in humans is encoded by the ''CDH1'' gene. Mutations are correlated with gastric, breast, colorectal, thyroid, and ovarian ...
and β1-Integrin to guide the migration of PGCs.[ Around 10 days post conception; the PGCs occupy the genital ridge][ where they begin to lose their motility and polarized shape.][
]
Germline development in mammals
Mammalian PGCs are specified by signalling between cells (induction), rather than by the segregation of germ plasm as the embryo divides. In mice, PGCs originate from the proximal epiblast, close to the extra-embryonic ectoderm (ExE), of the post-implantation embryo as early as embryonic day 6.5. By E7.5 a founding population of approximately 40 PGCs are generated in this region of the epiblast in the developing mouse embryo. The epiblast, however, also give rise to somatic cell lineages that make up the embryo proper; including the endoderm, ectoderm and mesoderm. The specification of primordial germ cells in mammals is mainly attributed to the downstream functions of two signaling pathways; the BMP signaling pathway and the canonical WNT/β-catenin pathway.
Bone morphogenetic protein 4 (BMP4) is released by the extra-embryonic ectoderm (ExE) at embryonic day 5.5 to 5.75 directly adjacent to the epiblast
In amniote embryonic development, the epiblast (also known as the primitive ectoderm) is one of two distinct cell layers arising from the inner cell mass in the mammalian blastocyst, or from the blastula in reptiles and birds, the other layer is t ...
and causes the region of the epiblast nearest to the ExE to express Blimp1 and Prdm14 in a dose-dependent manner. This is evident as the number of PGCs forming in the epiblast decreases in proportion to the loss of BMP4 alleles. BMP4 acts through its downstream intercellular transcription factors SMAD1 and SMAD5.[ During approximately the same time, WNT3 starts to be expressed in the posterior visceral endoderm of the epiblast. WNT3 signalling has been shown to be essential in order for the epiblast to acquire responsiveness to the BMP4 signal from the ExE. WNT3 mutants fail to establish a primordial germ cell population, but this can be restored with exogenous WNT activity.] The WNT3/β-catenin signalling pathway is essential for the expression of the transcription factor T (Brachyury), a transcription factor that was previously characterized somatic and mesoderm specific genes. T was recently found to be both necessary and sufficient to induce the expression of the known PGC specification genes Blimp1 and Prdm14.[ The induction of Transcription Factor T was seen 12 hours after BMP/WNT signaling, as opposed to the 24 to 36 hours it took for Blimp1 and Prdm14 genes to be expressed. Transcription factor T acts upstream of BLIMP1 and Prdm14 in PGC specification by binding to the genes respective enhancer elements.][ It is important to note that while T can activate the expression of Blimp1 and Prdm14 in the absence of both BMP4 and WNT3, pre-exposure of PGC progenitors to WNTs (without BMP4) prevents T from activating these genes.][ Details on how BMP4 prevents T from inducing mesodermal genes, and only activate PGC specification genes, remain unclear.
Expression of Blimp1 is the earliest known marker of PGC specification.] A mutation in the Blimp1 gene results in the formation of PGC-like cells at embryonic day 8.5 that closely resemble their neighbouring somatic cells. A central role of Blimp 1 is the induction of Tcfap2c, a helix-span helix transcription factor. Tcfap2c mutants exhibited an early loss of primordial germ cells. Tcfap2c is thought to repress somatic gene expression, including the mesodermal marker Hoxb1.[ So, Blimp1, Tcfap2c and Prdm14 together are able to activate and repress the ]transcription
Transcription refers to the process of converting sounds (voice, music etc.) into letters or musical notes, or producing a copy of something in another medium, including:
Genetics
* Transcription (biology), the copying of DNA into RNA, the fir ...
of all the necessary genes to regulate PGC specification. Mutation of Prdm14 results in the formation of PGCs that are lost by embryonic day 11.5. The loss of PGCs in the Prdm14 mutant is due to failure in global erasure of histone 3 methylation patterns. Blimp1 and Prdm14 also elicit another epigenetic event that causes global DNA demethylation.
Other notable genes positively regulated by Blimp1 and Prdm14 are: Sox2, Nanos3, Nanog, Stella and Fragilis. At the same time, Blimp1 and Prdm14 also repress the transcription of programs that drive somatic differentiation by inhibiting transcription of the Hox family genes. In this way, Blimp1 and Prdm14 drive PGC specification by promoting germ line development and potential pluripotency Pluripotency: These are the cells that can generate into any of the three Germ layers which imply Endodermal, Mesodermal, and Ectodermal cells except tissues like the placenta.
According to Latin terms, Pluripotentia means the ability for many thin ...
transcriptional programs while also keeping the cells from taking on a somatic fate.
Generation of mammalian PGCs in vitro
With the vast knowledge about in-vivo PGC specification collected over the last few decades, several attempts to generate in-vitro PGCs from post-implantation epiblast were made. Various groups were able to successfully generate PGC-like cells, cultured in the presence of BMP4 and various cytokines. The efficiency of this process was later enhanced by the addition of stem cell factor (SCF), epidermal growth factor (EGF), leukaemia inhibitory factor (LIF) and BMP8B. PGC-like cells generated using this method can be transplanted into a gonad, where the differentiate, and are able to give viable gametes and offspring in vivo.[ PGC-like cells can also be generated from naïve embryonic stem cells (ESCs) that are cultured for two days in the presence of FGF and Activin-A to adopt an epiblast-like state. These cells are then cultured with BMP4, BMP8B, EGF, LIF and SCF and various cytokines for four more days.] These in-vitro generated PGCs can also develop into viable gametes and offspring.[
]
Differentiation of primordial germ cells
Prior to their arrival at the gonads, PGCs express pluripotency factors, generate pluripotent cell lines in cell culture (known as EG cells,) and can produce multi-lineage tumors, known as teratoma
A teratoma is a tumor made up of several different types of tissue, such as hair, muscle, teeth, or bone. Teratomata typically form in the ovary, testicle, or coccyx.
Symptoms
Symptoms may be minimal if the tumor is small. A testicular terato ...
s. Similar findings in other vertebrates indicate that PGCs are not yet irreversibly committed to produce gametes, and no other cell type. On arrival at the gonads, human and mouse PGCs activate widely conserved germ cell-specific factors, and subsequently down-regulate the expression of pluripotency factors. This transition results in the determination of germ cells, a form of cell commitment that is no longer reversible.
Prior to their occupation of the genital ridge, there is no known difference between XX and XY PGCs. However, once migration is complete and germ cell determination has occurred, these germline cells begin to differentiate according to the gonadal niche.
Early male differentiation
Male PGCs become known as gonocytes Gonocytes are the precursors of spermatogonia that differentiate in the testis from primordial germ cells around week 7 of embryonic development and exist up until the postnatal period, when they become spermatogonia. Despite some uses of the term t ...
once they cease migration and undergo mitosis. The term gonocyte is generally used to describe all stages post PGC until the gonocytes differentiate into spermatogonia.[ Anatomically, gonocytes can be identified as large, euchromatic cells that often have two nucleoli in the nucleus.][
In the male genital ridge, transient Sry expression causes supporting cells to differentiate into ]Sertoli cells
Sertoli cells are a type of sustentacular "nurse" cell found in human testes which contribute to the process of spermatogenesis (the production of sperm) as a structural component of the seminiferous tubules. They are activated by follicle-stimula ...
which then act as the organizing center for testis differentiation. Point mutations or deletions in the human or mouse Sry coding region can lead to female development in XY individuals. Sertoli cells also act to prevent gonocytes from differentiating prematurely. They produce the enzyme CYP26B1 to counteract surrounding retinoic acid
Retinoic acid (used simplified here for all-''trans''-retinoic acid) is a metabolite of vitamin A1 (all-''trans''-retinol) that mediates the functions of vitamin A1 required for growth and development. All-''trans''-retinoic acid is required in ...
. Retinoic acid acts as a signal to the gonocytes to enter meiosis
Meiosis (; , since it is a reductional division) is a special type of cell division of germ cells in sexually-reproducing organisms that produces the gametes, such as sperm or egg cells. It involves two rounds of division that ultimately resu ...
.[ The gonocyte and Sertoli cells have been shown to form gap and desmosomelike junctions as well as adherins junctions composed of ]cadherin
Cadherins (named for "calcium-dependent adhesion") are a type of cell adhesion molecule (CAM) that is important in the formation of adherens junctions to allow cells to adhere to each other . Cadherins are a class of type-1 transmembrane proteins, ...
s and connexin
Connexins (Cx)TC# 1.A.24, or gap junction proteins, are structurally related transmembrane proteins that assemble to form vertebrate gap junctions. An entirely different family of proteins, the innexins, form gap junctions in invertebrates. Each ...
s.[ To differentiate into spermatogonia, the gonocytes must lose their junctions to Sertoli cells and become migratory once again.][ They migrate to the basement membrane of the seminiferous cord][ and differentiate.
]
Late differentiation
In the gonads, the germ cells undergo either spermatogenesis or oogenesis depending on whether the sex is male or female respectively.
Spermatogenesis
Mitotic germ stem cells, spermatogonia
A spermatogonium (plural: ''spermatogonia'') is an undifferentiated male germ cell. Spermatogonia undergo spermatogenesis to form mature spermatozoa in the seminiferous tubules of the testis.
There are three subtypes of spermatogonia in humans:
* ...
, divide by mitosis to produce spermatocytes
Spermatocytes are a type of male gametocyte in animals. They derive from immature germ cells called spermatogonia. They are found in the testis, in a structure known as the seminiferous tubules. There are two types of spermatocytes, primary and s ...
committed to meiosis. The spermatocytes divide by meiosis to form spermatids
The spermatid is the haploid male gametid that results from division of secondary spermatocytes. As a result of meiosis, each spermatid contains only half of the genetic material present in the original primary spermatocyte.
Spermatids are c ...
. The post-meiotic spermatids differentiate through spermiogenesis
Spermiogenesis is the final stage of spermatogenesis, during which the spermatids develop into mature spermatozoa. At the beginning of the stage, the spermatid is a more or less circular cell containing a nucleus, Golgi apparatus, centriole and ...
to become mature and functional spermatozoa
A spermatozoon (; also spelled spermatozoön; ; ) is a motile sperm cell, or moving form of the haploid cell that is the male gamete. A spermatozoon joins an ovum to form a zygote. (A zygote is a single cell, with a complete set of chromosomes, ...
. Spermatogenic cells at different stages of development in the mouse have a frequency of mutation
In biology, a mutation is an alteration in the nucleic acid sequence of the genome of an organism, virus, or extrachromosomal DNA. Viral genomes contain either DNA or RNA. Mutations result from errors during DNA or viral replication, mi ...
that is 5 to 10-fold lower than the mutation frequency in somatic cell
A somatic cell (from Ancient Greek σῶμα ''sôma'', meaning "body"), or vegetal cell, is any biological cell forming the body of a multicellular organism other than a gamete, germ cell, gametocyte or undifferentiated stem cell. Such cells compo ...
s.
In ''Drosophila
''Drosophila'' () is a genus of flies, belonging to the family Drosophilidae, whose members are often called "small fruit flies" or (less frequently) pomace flies, vinegar flies, or wine flies, a reference to the characteristic of many species ...
'', the ability of premeiotic male germ line cells to repair double-strand breaks declines dramatically with age. In mouse, spermatogenesis
Spermatogenesis is the process by which haploid spermatozoa develop from germ cells in the seminiferous tubules of the testis. This process starts with the mitotic division of the stem cells located close to the basement membrane of the tubule ...
declines with advancing paternal age likely due to an increased frequency of meiotic
Meiosis (; , since it is a reductional division) is a special type of cell division of germ cells in sexually-reproducing organisms that produces the gametes, such as sperm or egg cells. It involves two rounds of division that ultimately res ...
errors.
Oogenesis
Mitotic germ stem cells, oogonia
An oogonium (plural oogonia) is a small diploid cell which, upon maturation, forms a primordial follicle in a female fetus or the female (haploid or diploid) gametangium of certain thallophytes.
In the mammalian fetus
Oogonia are formed in larg ...
, divide by mitosis to produce primary oocytes
An oocyte (, ), oöcyte, or ovocyte is a female gametocyte or germ cell involved in reproduction. In other words, it is an immature ovum, or egg cell. An oocyte is produced in a female fetus in the ovary during female gametogenesis. The female ge ...
committed to meiosis. Unlike sperm production, oocyte production is not continuous. These primary oocytes begin meiosis but pause in diplotene
Meiosis (; , since it is a reductional division) is a special type of cell division of germ cells in sexually-reproducing organisms that produces the gametes, such as sperm or egg cells. It involves two rounds of division that ultimately res ...
of meiosis I
Meiosis (; , since it is a reductional division) is a special type of cell division of germ cells in sexually-reproducing organisms that produces the gametes, such as sperm or egg cells. It involves two rounds of division that ultimately resu ...
while in the embryo. All of the oogonia and many primary oocytes die before birth. After puberty in primates, small groups of oocytes and follicles prepare for ovulation by advancing to metaphase II. Only after fertilization is meiosis completed. Meiosis is asymmetric producing polar bodies and oocytes with large amounts of material for embryonic development. The mutation frequency of female mouse germ line cells, like male germ line cells, is also lower than that of somatic cells. Low germ line mutation frequency appears to be due, in part, to elevated levels of DNA repair
DNA repair is a collection of processes by which a cell identifies and corrects damage to the DNA molecules that encode its genome. In human cells, both normal metabolic activities and environmental factors such as radiation can cause DNA dam ...
enzymes that remove potentially mutagenic DNA damage
DNA repair is a collection of processes by which a cell identifies and corrects damage to the DNA molecules that encode its genome. In human cells, both normal metabolic activities and environmental factors such as radiation can cause DNA da ...
s. Enhanced genetic integrity may be a fundamental characteristic of germ line development.
See also
* Germ cell
Germ or germs may refer to:
Science
* Germ (microorganism), an informal word for a pathogen
* Germ cell, cell that gives rise to the gametes of an organism that reproduces sexually
* Germ layer, a primary layer of cells that forms during embry ...
* Germ cell tumor
Germ cell tumor (GCT) is a neoplasm derived from germ cells. Germ-cell tumors can be cancerous or benign. Germ cells normally occur inside the gonads (ovary and testis). GCTs that originate outside the gonads may be birth defects resulting from er ...
References
{{DEFAULTSORT:Germ Line Development
Developmental biology
Germ line cells