Spermatozoa Development: Difference between revisions
No edit summary |
|||
Line 41: | Line 41: | ||
:'''Spermatozoa development:''' [[P#primordial germ cell|primordial germ cell]] - [[S#spermatogonia|spermatogonia]] - [[P#primary spermatocyte|primary spermatocyte]] - [[S#secondary spermatocyte|secondary spermatocytes]] - [[S#spermatid|spermatid]] - [[S#spermatozoa|spermatozoa]] | :'''Spermatozoa development:''' [[P#primordial germ cell|primordial germ cell]] - [[S#spermatogonia|spermatogonia]] - [[P#primary spermatocyte|primary spermatocyte]] - [[S#secondary spermatocyte|secondary spermatocytes]] - [[S#spermatid|spermatid]] - [[S#spermatozoa|spermatozoa]] | ||
===Spermatozoa Histology=== | |||
<gallery> | <gallery> | ||
File:Historic-testis.jpg|Historic testis drawing | File:Historic-testis.jpg|Historic testis drawing | ||
Line 48: | Line 49: | ||
File:Human-spermatozoa_01b.jpg|Human spermatozoa | File:Human-spermatozoa_01b.jpg|Human spermatozoa | ||
File:Single_human_spermatozoa.jpg|Single human spermatozoa | File:Single_human_spermatozoa.jpg|Single human spermatozoa | ||
File:Human- vacuolated spermatozoa.jpg|Human vacuolated spermatozoa | |||
</gallery> | </gallery> | ||
Revision as of 13:23, 22 September 2010
Introduction
This page introduces spermatogenesis the development of spermatozoa, the male haploid gamete cell, produced by meiosis in the seminiferous tubules of the testis (male gonad). A second process of spermiogenesis leads to change in cellular organisation and shape before release into the central lumen of the seminiferous tubule. This overall process has been variously divided into specific identifiable stages in different species: 6 in human, 12 in mouse, and 14 in rat.
A second unique feature of this process is that during mitosis and meiosis the dividing cells remain connected by cytoplasmic bridges as the cells do not complete cytokinesis. This cellular organization is described as a syncytium, only ending with release into the central lumen of the seminiferous tubule, when the cell cytoplasm is discarded.
| Medicine Practical | Category:Spermatozoa | original page
Some Recent Findings
|
Seminiferous Tubule Histology
- Spermatogonia - are the first cells of spermatogenesis
- Primary spermatocytes - large, enter the prophase of the first meiotic division
- Secondary spermatocytes - small, complete the second meiotic division
- Spermatid - immature spermatozoa
- Spermatozoa - differentiated gamete
- Spermatozoa development: primordial germ cell - spermatogonia - primary spermatocyte - secondary spermatocytes - spermatid - spermatozoa
Spermatozoa Histology
Other main cell types seen in the histological sections
- Sertoli cells- support cells seen within the seminiferous tubule
- Interstitial cells or Leydig cells - produce hormone
- Smooth muscle - surround seminiferous tubule and contribute to contraction of the tubule
Human Spermatozoa Development
- Spermatogenesis process of spermatagonia mature into spermatazoa (sperm).
- Continuously throughout life occurs in the seminiferous tubules in the male gonad- testis (plural testes).
- At puberty spermatagonia activate and proliferate (mitosis).
- about 48 days from entering meiosis until morphologically mature spermatozoa
- about 64 days to complete spermatogenesis, depending reproduction time of spermatogonia
- follicle stimulating hormone (FSH) - stimulates the spermatogenic epithelium
- luteinizing-hormone (LH) - stimulates testosterone production by Leydig cells
Meiosis
Spermatozoa maturation involves two processes meiosis and spermiogenesis. After puberty, new spermatozoa continue to be generated throughout life from a spermatogonia stem cell population in the testis.
Differences in Mammalian Meioses
Female Oogenesis | Male Spermatogenesis | |
Meiosis initiated | once in a finite population of cells | continuously in mitotically dividing stem cell population |
Gametes produced | 1 / meiosis | 4 / meiosis |
Meiosis completed | delayed for months or years | completed in days or weeks |
Meiosis Arrest | arrest at 1st meiotic prophase | no arrest differentiation proceed continuously |
Chromosome Equivalence | All chromosomes exhibit equivalent transcription and recombination during meiotic prophase | Sex chromosomes excluded from recombination and transcription during first meiotic prophase |
Gamete Differentiation | occurs while diploid (in first meiotic prophase) | occurs while haploid (after meiosis ends) |
- Links: Cell Division - Meiosis
Mature Human Spermatozoa
Features:
| |
File:spermatozoa animation icon.jpg</wikiflv> | The linked animation shows an overview of key structural components of spermatozoa. |
Spermatozoa Morphology
Morphology is a term used to describe the overall appearance of a cell or tissue and is often used to characterise changes in cellular state or activity. Historically, there have been studies comparing the overall appearance of spermatozoa between different species.[5] More recently, there have been several different ways of characterising the morphology of human spermatozoa developed mainly in relation to clinical reproductive technologies.
Integrated Sperm Analysis System (ISAS)
A semi-automated computer-aided system that measures spermatozoa head parameters length (L), width (W), area (A), perimeter (P), acrosomal area (Ac), and the derived values L/W and P/A. 20852650
- For each man a homogeneous population of distributions characterized seminal spermatozoa (7,942 cells: median values L 4.4 μm, W 2.8 μm, A 9.8 μm(2), P 12.5 μm, Ac 47.5%, L/W 1.57, P/A 1.27)
- Different men could have spermatozoa of significantly different dimensions.
- Head dimensions for swim-up spermatozoa from different men (4 812 cells) were similar to those in semen, differing only by 2%-5%.
- The values of L, W and L/W fell within the limits given by the World Health Organization (WHO).
- A subpopulation of 404 spermatozoa considered to fit the stringent criteria of WHO 'normal' seminal spermatozoa from both semen and swim-up were characterized by median values (and 95% confidence intervals) of L, 4.3 μm (3.8-4.9), W, 2.9 μm (2.6-3.3), A, 10.2 μm(2) (8.5-12.2), P, 12.4 μm (11.3-13.9), Ac, 49% (36-60), L/W, 1.49 (1.32-1.67) and P/A, 1.22 (1.11-1.35). These median values fall within the 95th centile confidence limits given by WHO, but the confidence intervals for L and W were larger.
Male Abnormalities
Oligospermia
(Low Sperm Count) less than 20 million sperm after 72 hour abstinence from sex
Azoospermia
(Absent Sperm) blockage of duct network
Immotile Cilia Syndrome
Lack of sperm motility
References
Reviews
<pubmed>20388168</pubmed> <pubmed>20364093</pubmed> <pubmed>12672126</pubmed>
<pubmed>11105904</pubmed>| PDF
Articles
NCBI Bookshelf
MBoC - Sperm | MBoC - Highly simplified drawing of a cross-section of a seminiferous tubule in a mammalian testis | MBoC - Cytoplasmic bridges in developing sperm cells and their precursors
- NCBI Bookshelf spermatozoa | spermatogenesis | spermiogenesis
Search
- Pubmed spermatozoa | spermatogenesis | spermiogenesis
Additional Images
Terms
asthenozoospermia
(asthenospermia) Term for reduced sperm motility and can be the cause of male infertility.
blood-testis barrier
(BTB) Formed by tight junctions, basal ectoplasmic specializations, desmosome-like junctions and gap junctions between adjacent Sertoli cells near the basement membrane of the seminiferous epithelium.
Leydig cell
(interstitial cell) Male gonad (testis) cell which secrete the androgen testosterone, beginning in the fetus. These cells are named after Franz von Leydig (1821 - 1908) a German scientist who histologically described these cells.
sperm annulus
(Jensen's ring; Latin, annulus = ring) A region of the mammalian sperm flagellum connecting the midpiece and the principal piece. The annulus is a septin-based structure formed from SEPT1, 4, 6, 7 and 12. Septins are polymerizing GTPases that can act as a scaffold forming hetero-oligomeric filaments required for cytokinesis and other cell cycle roles.
spermatogenesis
(Greek, genesis = origin, creation, generation) The term used to describe the process of diploid spermatagonia division and differentiation to form haploid spermatazoa within the testis (male gonad). The process includes the following cellular changes: meiosis, reoorganization of DNA, reduction in DNA content, reorganization of cellular organelles, morphological changes (cell shape). The final process of change in cell shape is also called spermiogenesis.
spermiogenesis
(Greek, genesis = origin, creation, generation) The maturation process of the already haploid spermatazoa into the mature sperm shape and organization. This process involves reorganization of cellular organelles (endoplasmic reticulum, golgi apparatus, mitochondria), cytoskeletal changes (microtubule organization) and morphological changes (cell shape, acrosome and tail formation).
spermatogonia
The cells located in the seminiferous tubule adjacent to the basal membrane that either divide and separate to renew the stem cell population, or they divide and stay together as a pair (Apr spermatogonia) connected by an intercellular cytoplasmic bridge to differentiate and eventually form spermatazoa.
spermatozoa head
Following spermiogenesis, the first region of the spermatozoa containing the haploid nucleus and acrosome. In humans, it is a flattened structure (5 µm long by 3 µm wide) with the posterior part of nuclear membrane forming the basal plate region. The human spermatozoa is about 60 µm long, actively motile and divided into 3 main regions (head, neck and tail).
spermatozoa neck
Following spermiogenesis, the second region of the spermatozoa attached to basal plate, transverse oriented centriole, contains nine segmented columns of fibrous material, continue as outer dense fibres in tail. In humans, it forms a short structure (1 µm). The human spermatozoa is about 60 µm long, actively motile and divided into 3 main regions (head, neck and tail).
spermatozoa tail
Following spermiogenesis, the third region of the spermatozoa that has a (head, neck and tail). The tail is also divided into 3 structural regions a middle piece, a principal piece and an end piece. In humans: the middle piece (5 µm long) is formed by axonema and dense fibres surrounded by mitochondria; the principal piece (45 µm long) fibrous sheath interconnected by regularly spaced circumferential hoops; the final end piece (5 µm long) has an axonema surrounded by small amount of cytoplasm and plasma membrane.
spermatogonial stem cells
(SSCs) The spermatagonia cells located beside the seminiferous tubule basal membrane that either divide and separate to renew the stem cell population, or they divide and stay together as a pair (Apr spermatogonia) connected by an intercellular cytoplasmic bridge to differentiate and eventually form spermatazoa.
sperm protein 56
A component of the spermatozoa acrosomal matrix released to the sperm surface during capacitation.
Glossary Links
- Glossary: A | B | C | D | E | F | G | H | I | J | K | L | M | N | O | P | Q | R | S | T | U | V | W | X | Y | Z | Numbers | Symbols | Term Link
Cite this page: Hill, M.A. (2024, June 16) Embryology Spermatozoa Development. Retrieved from https://embryology.med.unsw.edu.au/embryology/index.php/Spermatozoa_Development
- © Dr Mark Hill 2024, UNSW Embryology ISBN: 978 0 7334 2609 4 - UNSW CRICOS Provider Code No. 00098G