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Male Reproductive System: Physiology of Male Reproduction
Institute of Life Long Learning, University of Delhi
0
Lesson: Male Reproductive System:
Physiology of Male Reproduction
Lesson Developer: Dr. Gayatri Prakash
College/ Department: Department of Zoology,
Daulat Ram College, University of Delhi
Page 2
Male Reproductive System: Physiology of Male Reproduction
Institute of Life Long Learning, University of Delhi
0
Lesson: Male Reproductive System:
Physiology of Male Reproduction
Lesson Developer: Dr. Gayatri Prakash
College/ Department: Department of Zoology,
Daulat Ram College, University of Delhi
Male Reproductive System: Physiology of Male Reproduction
Institute of Life Long Learning, University of Delhi
1
Table of Contents
? Introduction
? Maturation of spermatozoa
? Morphological Changes
? Physiological and Biochemical Changes
? Biochemistry of semen
? Composition of semen
? Chemical Constituents of semen
? Coagulation of Semen
? Physiological Significance of the Seminal Plasma Scrotum
? Summary
? Glossary
? Exercises
? References
Page 3
Male Reproductive System: Physiology of Male Reproduction
Institute of Life Long Learning, University of Delhi
0
Lesson: Male Reproductive System:
Physiology of Male Reproduction
Lesson Developer: Dr. Gayatri Prakash
College/ Department: Department of Zoology,
Daulat Ram College, University of Delhi
Male Reproductive System: Physiology of Male Reproduction
Institute of Life Long Learning, University of Delhi
1
Table of Contents
? Introduction
? Maturation of spermatozoa
? Morphological Changes
? Physiological and Biochemical Changes
? Biochemistry of semen
? Composition of semen
? Chemical Constituents of semen
? Coagulation of Semen
? Physiological Significance of the Seminal Plasma Scrotum
? Summary
? Glossary
? Exercises
? References
Male Reproductive System: Physiology of Male Reproduction
Institute of Life Long Learning, University of Delhi
2
Introduction
The transport of spermatozoa from the testis to the site of fertilization is indeed quite a
journey. After leaving the testis spermatozoa pass via the rete testis into the epididymis.
The contents of the epididymis consist of large numbers of spermatozoa suspended in the
secretions of testis and of epididymis. This mixture moves slowly down the tube and takes
many days to reach the vas deferens and then urethra (Figure 1). Some of the suspending
fluid is absorbed in the epididymis so that the mixture becomes somewhat concentrated by
the time it reaches the end of the epididymis. Also the concentration of spermatozoa
becomes remarkably dense in the vas deferens. In urethra, the secretions of all the
accessory glands of reproduction combine with the spermatozoa to produce a mixture called
semen. The spermatozoa make up less than one-tenth of the total volume of semen and
the bulk of the semen is contributed by the seminal vesicles, with smaller contributions from
the prostate and the Cowper’s glands. The journey through the epididymis helps the
spermatozoa to acquire characteristic motility and fertilizing ability required for fertilization.
Various biochemical constituents present in seminal plasma performs many other functions
such as supplies energy for motility of spermatozoa, contribute to the viability of
spermatozoa in the vagina, and help spermatozoa to reach the fertilization site in the
female reproductive tract thus increasing the probability of fertilization. Functions of the two
components of the male reproductive system that is its ducts and accessory glands are
given as:
A. Maturation of spermatozoa,
B. Biochemistry of semen
C. Coagulation of Semen
D. Physiological Significance of the Seminal Plasma.
Page 4
Male Reproductive System: Physiology of Male Reproduction
Institute of Life Long Learning, University of Delhi
0
Lesson: Male Reproductive System:
Physiology of Male Reproduction
Lesson Developer: Dr. Gayatri Prakash
College/ Department: Department of Zoology,
Daulat Ram College, University of Delhi
Male Reproductive System: Physiology of Male Reproduction
Institute of Life Long Learning, University of Delhi
1
Table of Contents
? Introduction
? Maturation of spermatozoa
? Morphological Changes
? Physiological and Biochemical Changes
? Biochemistry of semen
? Composition of semen
? Chemical Constituents of semen
? Coagulation of Semen
? Physiological Significance of the Seminal Plasma Scrotum
? Summary
? Glossary
? Exercises
? References
Male Reproductive System: Physiology of Male Reproduction
Institute of Life Long Learning, University of Delhi
2
Introduction
The transport of spermatozoa from the testis to the site of fertilization is indeed quite a
journey. After leaving the testis spermatozoa pass via the rete testis into the epididymis.
The contents of the epididymis consist of large numbers of spermatozoa suspended in the
secretions of testis and of epididymis. This mixture moves slowly down the tube and takes
many days to reach the vas deferens and then urethra (Figure 1). Some of the suspending
fluid is absorbed in the epididymis so that the mixture becomes somewhat concentrated by
the time it reaches the end of the epididymis. Also the concentration of spermatozoa
becomes remarkably dense in the vas deferens. In urethra, the secretions of all the
accessory glands of reproduction combine with the spermatozoa to produce a mixture called
semen. The spermatozoa make up less than one-tenth of the total volume of semen and
the bulk of the semen is contributed by the seminal vesicles, with smaller contributions from
the prostate and the Cowper’s glands. The journey through the epididymis helps the
spermatozoa to acquire characteristic motility and fertilizing ability required for fertilization.
Various biochemical constituents present in seminal plasma performs many other functions
such as supplies energy for motility of spermatozoa, contribute to the viability of
spermatozoa in the vagina, and help spermatozoa to reach the fertilization site in the
female reproductive tract thus increasing the probability of fertilization. Functions of the two
components of the male reproductive system that is its ducts and accessory glands are
given as:
A. Maturation of spermatozoa,
B. Biochemistry of semen
C. Coagulation of Semen
D. Physiological Significance of the Seminal Plasma.
Male Reproductive System: Physiology of Male Reproduction
Institute of Life Long Learning, University of Delhi
3
Figure 1: Reproductive system of Man in sagittal view, testis and
epididymis, are enlarged in comparison to other parts to show
structural details.
Source: Author
A. Maturation of Spermatozoa
When the spermatozoa leave the testis they are neither structurally nor functionally
complete to perform their function. The testicular spermatozoa are incapable of fertilizing an
ovum. They do not show forward pattern of motility, which is a prerequisite in fertilization
process. The Spermatozoa undergo several changes as they move through the epididymis
which render spermatozoa to acquire characteristic pattern of forward motility and full
fertilizing ability.
The epididymis provides a favorable internal milieu to spermatozoa in acquiring fertilizing
ability and also for their storage until they are ejaculated or move down to the vas deferens.
The duration for normal transport of spermatozoa through the epididymis is species
dependent. It varies from 15 days in rat, 8 days in mouse, 14-18 days in guinea pig, 4-7
Page 5
Male Reproductive System: Physiology of Male Reproduction
Institute of Life Long Learning, University of Delhi
0
Lesson: Male Reproductive System:
Physiology of Male Reproduction
Lesson Developer: Dr. Gayatri Prakash
College/ Department: Department of Zoology,
Daulat Ram College, University of Delhi
Male Reproductive System: Physiology of Male Reproduction
Institute of Life Long Learning, University of Delhi
1
Table of Contents
? Introduction
? Maturation of spermatozoa
? Morphological Changes
? Physiological and Biochemical Changes
? Biochemistry of semen
? Composition of semen
? Chemical Constituents of semen
? Coagulation of Semen
? Physiological Significance of the Seminal Plasma Scrotum
? Summary
? Glossary
? Exercises
? References
Male Reproductive System: Physiology of Male Reproduction
Institute of Life Long Learning, University of Delhi
2
Introduction
The transport of spermatozoa from the testis to the site of fertilization is indeed quite a
journey. After leaving the testis spermatozoa pass via the rete testis into the epididymis.
The contents of the epididymis consist of large numbers of spermatozoa suspended in the
secretions of testis and of epididymis. This mixture moves slowly down the tube and takes
many days to reach the vas deferens and then urethra (Figure 1). Some of the suspending
fluid is absorbed in the epididymis so that the mixture becomes somewhat concentrated by
the time it reaches the end of the epididymis. Also the concentration of spermatozoa
becomes remarkably dense in the vas deferens. In urethra, the secretions of all the
accessory glands of reproduction combine with the spermatozoa to produce a mixture called
semen. The spermatozoa make up less than one-tenth of the total volume of semen and
the bulk of the semen is contributed by the seminal vesicles, with smaller contributions from
the prostate and the Cowper’s glands. The journey through the epididymis helps the
spermatozoa to acquire characteristic motility and fertilizing ability required for fertilization.
Various biochemical constituents present in seminal plasma performs many other functions
such as supplies energy for motility of spermatozoa, contribute to the viability of
spermatozoa in the vagina, and help spermatozoa to reach the fertilization site in the
female reproductive tract thus increasing the probability of fertilization. Functions of the two
components of the male reproductive system that is its ducts and accessory glands are
given as:
A. Maturation of spermatozoa,
B. Biochemistry of semen
C. Coagulation of Semen
D. Physiological Significance of the Seminal Plasma.
Male Reproductive System: Physiology of Male Reproduction
Institute of Life Long Learning, University of Delhi
3
Figure 1: Reproductive system of Man in sagittal view, testis and
epididymis, are enlarged in comparison to other parts to show
structural details.
Source: Author
A. Maturation of Spermatozoa
When the spermatozoa leave the testis they are neither structurally nor functionally
complete to perform their function. The testicular spermatozoa are incapable of fertilizing an
ovum. They do not show forward pattern of motility, which is a prerequisite in fertilization
process. The Spermatozoa undergo several changes as they move through the epididymis
which render spermatozoa to acquire characteristic pattern of forward motility and full
fertilizing ability.
The epididymis provides a favorable internal milieu to spermatozoa in acquiring fertilizing
ability and also for their storage until they are ejaculated or move down to the vas deferens.
The duration for normal transport of spermatozoa through the epididymis is species
dependent. It varies from 15 days in rat, 8 days in mouse, 14-18 days in guinea pig, 4-7
Male Reproductive System: Physiology of Male Reproduction
Institute of Life Long Learning, University of Delhi
4
days in rabbit, 9-14 days in ram and 19-23 days in man. During their transit through the
epididymis the spermatozoa undergo a series of changes that are collectively called as
maturational changes.
Intrinsic factors alone are not sufficient for sperm maturation to occur, and the
epididymal environment plays a decisive role in this process. A period of retention in the
epididymal canal seems to be a pre-requisite for the culmination of maturational changes in
the spermatozoa. Spermatozoa acquire their full fertilizing ability gradually as they are
transported from the caput to the cauda epididymides. Orgebin and Crist have shown that
in rat only 8 % of ova exposed to sperm suspensions from the caput epididymides were
fertilized while spermatozoa from the cauda epididymides could fertilize 93 % of the ova.
However, the exact region of the epididymis where maturation of spermatozoa occurs or is
completed is variable in different species. In rat, majority of spermatozoa attains fertilizing
ability on reaching the cauda epididymides while in rabbit and hamster maturation of
spermatozoa occurs in the lower half of the corpus epididymides and the proximal segment
of the cauda epididymides respectively. Changes in the spermatozoa during their
maturation process can be classified as morphological, physiological and biochemical.
1. Morphological Changes
i) Migration and loss of the cytoplasmic droplet: The most noticeable morphological
change that takes place, as spermatozoa progress through the epididymis is the migration
of the cytoplasmic droplet that surrounds the connecting piece and first part of the middle
piece. The cytoplasmic droplet is gradually displaced caudally and is eventually discarded.
ii) Structural changes or remodeling of the acrosome: The other well-documented
morphological change during maturation of spermatozoa is the alteration in the shape and
dimensions of the acrosome. Size of the acrosome reduces and its remodeling (alteration of
shape) occurs during epididymal transit of spermatozoa through the epididymis.
iii) Establishment of disulfide linkages: Establishment of disulfide linkages appears to
be an important event in the development of the fertilizing capacity of spermatozoa. This
was first revealed by reductive or oxidative cleavage of –s-s- (disulfide) linkages in the head
of bovine spermatozoa. It was noticed that spermatozoa of infertile animals stained either
more or less intensely than normal spermatozoa. A correlation was found between
abnormal nuclear morphology and infertility in human spermatozoa.
2. Physiological and Biochemical Changes
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FAQs on Lecture 10 - Male Reproductive System: Physiology of Male Reproduction - Animal Physiology and Functional Histology- I - MBBS
| 1. What is the role of testosterone in male reproduction? |  |
Ans. Testosterone is a hormone that plays a crucial role in male reproduction. It is responsible for the development and maintenance of male reproductive tissues, including the testes, prostate, and seminal vesicles. Testosterone is involved in the production of sperm, the regulation of sexual function and libido, and the development of secondary sexual characteristics in males, such as muscle mass, body hair, and deepening of the voice.
| 2. How does the male reproductive system produce sperm? | |
Ans. Sperm production, also known as spermatogenesis, occurs in the testes. The process begins with the division of cells called spermatogonia, which eventually develop into sperm cells. These cells undergo a series of divisions and differentiation, resulting in the formation of mature sperm cells. The entire process takes approximately 64-72 days. Sperm cells are then transported through the epididymis, where they mature and gain the ability to swim, before being ejaculated during sexual intercourse.
| 3. What is the function of the epididymis in the male reproductive system? | |
Ans. The epididymis is a coiled tube located on the back of each testicle. Its main function is to store and transport sperm cells. After sperm are produced in the testes, they enter the epididymis, where they undergo maturation and gain the ability to swim. The epididymis also helps in concentrating and storing sperm until they are ready to be ejaculated during sexual intercourse.
| 4. How does the male reproductive system regulate testosterone production? | |
Ans. Testosterone production is regulated by a feedback loop involving the hypothalamus, pituitary gland, and testes. The hypothalamus releases gonadotropin-releasing hormone (GnRH), which stimulates the pituitary gland to release luteinizing hormone (LH) and follicle-stimulating hormone (FSH). LH acts on the testes, specifically the Leydig cells, to stimulate the production of testosterone. Elevated testosterone levels then signal the hypothalamus and pituitary gland to decrease the release of GnRH, LH, and FSH, thus maintaining a balance of testosterone in the body.
| 5. What are some common disorders of the male reproductive system? | |
Ans. There are several common disorders that can affect the male reproductive system. Some examples include:
- Erectile dysfunction: The inability to achieve or maintain an erection sufficient for sexual intercourse.
- Testicular torsion: A painful condition in which the testicle twists, cutting off its blood supply.
- Prostate enlargement: Also known as benign prostatic hyperplasia (BPH), it can cause urinary symptoms such as frequent urination and weak urine flow.
- Infertility: The inability to conceive a child due to problems with sperm production, quality, or delivery.
- Prostate cancer: The development of cancerous cells in the prostate gland. Regular screenings and early detection are important for successful treatment.
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