1. MALE REPRODUCTIVE
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2. Objectives Students should be able to:
Recognise, draw and label the main structures of a section of functional testis and immature testis.
Identify the levels of the epididymis according to their cellular structural variations.
Label the regions of the spermatozoon.

3. DEMO SLIDE Mature testis
Section of whole testis : Identify the main features of the section.
5.0 mm

4. DEMO SLIDE Mature testis
Section of whole testis : Identify the main features of the section.
ductus deferens
mediastinum testis
E : epididymis
R : rete testis E E
5.0 mm R
tunica albuginea E
connective tissue septa
dividing the testis into lobules
seminiferous tubules

5. SLIDE 162 Mature testis (dog)
At low magnification identify :
tunica albuginea lobules
connective tissue septa seminiferous tubules
1.0 mm

6. SLIDE 162 Mature testis (dog)
At low magnification identify :
tunica albuginea lobules
connective tissue septa seminiferous tubules
Septa extend from the tunica albuginea across the testis dividing it into lobules.
connective tissue
septa
lobule
tunica albuginia
seminiferous tubules
1.0 mm

7. SLIDE 162 Mature testis (dog)
The lobules are composed of convoluted seminiferous tubules.
Lying between these tubules in the interstitial tissue are found Leydig cells (endocrine cells).
250 µm

8. SLIDE 162 Mature testis (dog)
The lobules are composed of convoluted seminiferous tubules.
Lying between these tubules in the interstitial tissue are found Leydig cells (endocrine cells).
ST : seminiferous tubules
L : area of Leydig cells ST
connective tissue
septum L ST
250 µm

9. SLIDE 162 Mature testis (dog)
What magnification is best for identifying this section? Give reasons.
100 µm

10. SLIDE 162 Mature testis (dog)
What magnification is best for identifying this section? Give reasons.
What magnification is best for identifying this section? Give reasons.
Higher magnifications are best.
It is then possible to distinguish the different cell types present.
At low magnification the tissue can be confused with epididymis. L ST
ST : seminiferous tubules
L : Leydig cells L ST ST L
100 µm

11. SLIDE 162 Mature testis (dog)
What is secreted by the Leydig cells?
50 µm

12. SLIDE 162 Mature testis (dog)
What is secreted by the Leydig cells?
Leydig cells synthesize and secrete testosterone.
These cells have a ‘foamy’ appearance due to the presence of lipid droplets and granules.
What is secreted by the Leydig cells?
C : capillary
Leydig cells C
50 µm

13. SLIDE 162 Mature testis (dog)
Can you explain the appearance of tubules and cells from your knowledge of the architecture of the organ?
50 µm

14. SLIDE 162 Mature testis (dog)
Can you explain the appearance of tubules and cells from your knowledge of the architecture of the organ?
Seminiferous tubules are surrounded by lymph spaces in the interstitium and Leydig cells. These tubules are lined by Sertoli cells.
Germ cells differentiate and mature in compartments between the Sertoli cells.
Can you explain the appearance of tubules and cells from your knowledge of the architecture of the organ? L
L : Leydig cells L
blood capillary L
seminiferous tubule
50 µm

15. SLIDE 162 Mature testis (dog)
In sections; adjacent seminiferous tubules show different stages of spermatogenesis.
Tight junctions between Sertoli cells divide the basal and luminal compartments.
As germ cells progress from the basal to the luminal compartment they undergo division
and differentiation :
50 µm

16. SLIDE 162 Mature testis (dog)
In sections; adjacent seminiferous tubules show different stages of spermatogenesis.
Tight junctions between Sertoli cells divide the basal and luminal compartments.
As germ cells progress from the basal to the luminal compartment they undergo division
and differentiation :
SPERMATOGONIA ↓
PRIMARY SPERMATOCYTES
SECONDARY SPERMATOCYTES
SPERMATIDS
SPERMATOZOA
50 µm

17. SLIDE 162 Mature testis (dog)
Examine the tubules at higher power (X40). Are they structurally identical?
25 µm

18. SLIDE 162 Mature testis (dog)
Examine the tubules at higher power (X40). Are they structurally identical?
No, adjacent tubules are at different stages of spermatogenesis.
Tubules also vary in the angle at which they have been sectioned (not all true TS).
Examine the tubules at higher power (X40). Are they structurally identical?
P : primary spermatocytes
ES : elongated spermatids
spherical spermatids ES P
spermatogonia
nucleus of Sertoli cell P P
25 µm

19. SLIDE 162 Mature testis (dog)
Describe what you see.
25 µm

20. SLIDE 162 Mature testis (dog)
Describe what you see.
In this tubule many primary spermatocytes are visible.
Many spherical spermatids are seen in the mid regions and elongated spermatids
with tails protruding into the lumen towards the apical margins of the Sertoli cells.
A prominent myoid or myoepithelial cell can be seen outside the tubule.
Describe what you see.
M : myoid (myoepithelial) cell
elongated spermatids
spherical spermatids
primary spermatocytes
25 µm M

21. SLIDE 162 Mature testis (dog)
Describe what you see.
25 µm

22. SLIDE 162 Mature testis (dog)
Describe what you see.
Prominent in this tubule are spherical spermatids many of which are in the cap phase.
Note also sperm tails in the lumen of the tubule.
Describe what you see.
S : spermatogonia
P : primary spermatocytes S
spherical spermatids
with acrosomal caps P P S
25 µm

23. SLIDE 162 Mature testis (dog)
Describe what you see.
25 µm

24. SLIDE 162 Mature testis (dog)
Describe what you see.
This section of tubule has both prominent spherical spermatids in the golgi phase
and cap spermatids.
The elongated spermatids are still enveloped by the apical portions of the
Sertoli cells.
Describe what you see.
S : spermatogonia
P : primary spermatocytes
Si : spherical spermatids
Sii : cap spermatids
L : Leydig cells P L Si S
Sii
sperm tails Si P
Sii S
25 µm

25. SLIDE 162 Mature testis (dog)
Describe what you see.
25 µm

26. SLIDE 162 Mature testis (dog)
Describe what you see.
Again most of the spherical spermatids are in the acrosomal cap phase.
The darker strands of tissue are the bodies of the Sertoli cells.
Sertoli cells
acrosomal cap spermatids
25 µm

27. TRANSMISSION ELECTRON MICROGRAPH OF DOG SPERMATOZOA

28. TRANSMISSION ELECTRON MICROGRAPH OF DOG SPERMATOZOA
head containing nucleus covered by acrosome
neck
head
mitochondria
mid-piece
axial filaments 9+2
tail
2.5 µm

29. SCANNING ELECTRON MICROGRAPH OF DOG SPERMATOZOA
A group of spermatozoa on the surface of the uterine horn.
Note the surface processes of the uterine epithelial cells.
10 µm

30. SLIDE 163 Immature testis (ferret)
Low magnification showing main body surrounded by tunica albuginea.
At the top is the epididymis.
200 µm

31. SLIDE 163 Immature testis (ferret)
Low magnification showing main body surrounded by tunica albuginea.
At the top is the epididymis.
epididymis
tunica albuginea
developing tubules
200 µm

32. SLIDE 163 Immature testis (ferret)
Compare with previous slide 162.
250 µm

33. SLIDE 163 Immature testis (ferret)
Compare with previous slide 162.
tubules
blood vessels
tunica albuginea
250 µm

34. SLIDE 163 Immature testis (ferret)
List the similarities and differences.
100 µm

35. SLIDE 163 Immature testis (ferret)
List the similarities and differences.
Similarities.
Both have tubules.
Leydig cells present, but function at low level.
100 µm

36. SLIDE 163 Immature testis (ferret)
List the similarities and differences.
Similarities Differences.
Both have tubules Closely packed tubules, little or no lumen.
Leydig cells present, but function at low level No spermatogenesis.
Immature Sertoli cells.
Giant gonocytes present.
100 µm

37. SLIDE 163 Immature testis (ferret)
What cell types indicated below are evident in the tubular sections?
50 µm

38. SLIDE 163 Immature testis (ferret)
What cell types indicated below are evident in the tubular sections?
What cell types indicated below are evident in the tubular sections?
Gonocytes (pre-spermatogonia).
Sertoli cells.
G : gonocytes G G
Sertoli cells G G
50 µm

39. SLIDE 163 Immature testis (ferret)
Higher magnification of developing germ cells, Gonocytes within the tubules.
These will become spermatogonia.
Leydig cells develop in the interstitial areas.
25 μm

40. SLIDE 163 Immature testis (ferret)
Higher magnification of developing germ cells, Gonocytes within the tubules.
These will become spermatogonia.
Leydig cells develop in the interstitial areas.
I : interstitial tissue
site of Leydig cells
G : gonocytes
within tubules G
capillaries I
Sertoli cells forming
the epithelial lining
of tubules I G
25 μm

41. DEMO SLIDE Mature testis
Section of whole testis : Identify the regions of the epididymis.
5.0 mm

42. DEMO SLIDE Mature testis
Section of whole testis : Identify the regions of the epididymis.
Efferent ductules lead from the rete testis and join to form the head of the epididymis.
A : head
B : body
C : tail B B C A
5.0 mm

43. DEMO SLIDE Mature testis
At low magnification identify the main features of the section.
2.5 mm

44. DEMO SLIDE Mature testis
At low magnification identify the main features of the section.
body of epididymis (corpus)
tail of epididymis (cauda)
tunica albuginea
tubules of testis
2.5 mm

45. What might this organ be confused with?
SLIDE 166 Epididymis
What might this organ be confused with?
1.0 mm

46. What might this organ be confused with?
SLIDE 166 Epididymis
What might this organ be confused with?
Testis.
Differential vesicular glands, bulbourethral gland, prostate gland.
At higher magnification with kidney tubules.
What might this organ be confused with?
head (caput)
body (corpus)
tail (cauda)
1.0 mm

47. What distinguishing features can you identify?
SLIDE 166 Epididymis
What distinguishing features can you identify?
100 µm

48. What distinguishing features can you identify?
SLIDE 166 Epididymis
What distinguishing features can you identify?
Pseudostratified epithelium with stereocilia.
No interstitial cells.
Spermatozoa in lumen of duct.
What distinguishing features can you identify?
spermatozoa in lumen
pseudostratified
columnar epithelium
(principal cells) and
smaller basal cells
forming wall of tubules
100 µm

49. SLIDE 166 Epididymis
What is the function of the cellular extensions projecting into the lumen?
25 µm

50. SLIDE 166 Epididymis
What is the function of the cellular extensions projecting into the lumen?
What is the function of the cellular extensions projecting into the lumen?
These are stereocilia (long branching microvilli).
They are often clumped together and indicate a resorptive function of these cells.
spermatozoa
stereocilia
(clumped)
pseudostratified epithelium
columnar cells
basal cells
25 µm

51. SLIDE 166 Epididymis
Is this tubular structure single or multiple and can you decide that from the slide?
250 µm

52. SLIDE 166 Epididymis
Is this tubular structure single or multiple and can you decide that from the slide?
A single, highly convoluted tube.
This is not apparent from the slide.
Is this tubular structure single or multiple and can you decide that from the slide?
the epididymis :
tubule cut in TS, LS
and oblique section.
250 µm

53. SLIDE 166 Epididymis Head (caput)
Are all the sections of the tubule identical?
50 µm

54. SLIDE 166 Epididymis Head (caput)
Are all the sections of the tubule identical?
No, the head (caput), body (corpus) and tail (cauda) are distinct in structure and function.
This is a section through the head; here the pseudostratified epithelium is highest.
The head is an area of resorption.
Are all the sections of the tubule identical?
tall columnar cells
basal cells
stereocilia
blood vessel
50 µm

55. SLIDE 166 Epididymis Body (corpus)
Tubule sections from the body or corpus epididymis.
The epithelium is lower in height than in the head portion.
As spermatozoa pass through the body of the epididymis, they acquire the ability to move and to fertilize.
50 µm

56. SLIDE 166 Epididymis Tail (cauda)
The tail or cauda epididymis is where spermatozoa are stored prior to ejaculation.
The tubule in the tail has a lower epithelium and less prominent stereocilia.
Bands of smooth muscle can be seen between the tubule.
smooth muscle
smooth muscle
50 µm

57. SLIDE 167 Spermatic cord
This is a section through the spermatic cord proximal to the testis.
Identify the structures indicated. F E C A B D G J
1.0 mm H

58. SLIDE 167 Spermatic cord F E C A D B G J H
A : testicular artery B : veins providing heat transfer and forming the pampiniform plexus.
C : external cremaster muscle. D : nerve fibres E : ductus (vas) deferens.
F : wall of ductus deferens G : connective tissue.
H : space continuous with peritoneal cavity and lined by visceral and parietal serous membrane.
J : internal cremaster muscle (runs on the inside of the peritoneum). F E C A B D G J
1.0 mm H

59. Whole section at slightly higher magnification.
SLIDE 167 Spermatic cord
Whole section at slightly higher magnification.
1.0 mm

60. Whole section at slightly higher magnification.
SLIDE 167 Spermatic cord
Whole section at slightly higher magnification.
vas deferens
loops of
testicular artery
external cremaster muscle
veins
internal cremaster muscle
continuous with peritoneal cavity
1.0 mm

61. SLIDE 167 Spermatic cord The vas deferens or ductus deferens.
Runs from the epididymis and joins with the urethra.
It is lined with pseudostratified columnar epithelium.
The smooth muscle in the wall has inner circular and outer longitudinal fibres, these may be interwoven.
250 µm
50 µm

62. SLIDE 167 Spermatic cord The vas deferens or ductus deferens.
Runs from the epididymis and joins with the urethra.
It is lined with pseudostratified columnar epithelium.
The smooth muscle in the wall has inner circular and outer longitudinal fibres, these may be interwoven.
serosa
muscle
lumen
lamina propria
250 µm
epithelium
50 µm

63. The internal cremaster muscle lies on the inside of the peritoneum.
SLIDE 167 Spermatic cord
The internal cremaster muscle lies on the inside of the peritoneum.
250 µm
100 µm

64. The internal cremaster muscle lies on the inside of the peritoneum.
SLIDE 167 Spermatic cord
The internal cremaster muscle lies on the inside of the peritoneum.
V : veins of pampiniform plexus
A : artery A V
250 µm
internal cremaster muscle
space continuous with
peritoneal cavity
100 µm

65. SLIDE 167 Spermatic cord
Bundle of nerve fibres in the connective tissue proximal to the vas deferens.
nerve fibre
50 µm

66. SLIDE Prostate cat
The prostate gland is found in all domestic species.
Identify the areas in this low magnification view.
1.0 mm

67. SLIDE Prostate cat
The prostate gland is found in all domestic species.
Identify the areas in this low magnification view.
disseminate portion of gland
P : pelvic urethra
M : muscularis
body of gland M P
1.0 mm

68. SLIDE Prostate cat
The body of the prostate lies within a capsule of connective tissue and smooth muscle
the gland is divided by trabeculae.
The disseminate prostate lies within the submucosa of the pelvic urethra.
250 µm

69. SLIDE Prostate cat
The body of the prostate lies within a capsule of connective tissue and smooth muscle
the gland is divided by trabeculae.
The disseminate prostate lies within the submucosa of the pelvic urethra.
disseminate portion of gland
compact body
of prostate
trabeculae
capsule
muscularis of urethra
L : lumen
(pelvic urethra) L
250 µm

70. SLIDE Prostate cat
Illustrated below; part of the body of the prostate.
250 µm

71. SLIDE Prostate cat
Illustrated below; part of the body of the prostate.
muscularis of urethra
(smooth muscle)
trabecula
lobule of gland
capsule
250 µm

72. SLIDE Prostate cat
How would you describe the structure of this gland?
100 µm

73. SLIDE Prostate cat
How would you describe the structure of this gland?
A compound tubuloalveolar gland.
How would you describe the structure of this gland?
T : trabeculae
dividing gland
into lobules
epithelium :
lining alveolar
sacs T T
100 µm

74. SLIDE Prostate cat
How would you describe the epithelial lining of this gland?
50 µm

75. SLIDE Prostate cat
How would you describe the epithelial lining of this gland?
Psedostratified cuboidal/columnar.
How would you describe the epithelial lining of this gland?
pseudostratified
epithelium
trabecula
50 µm

76. SLIDE 169 Vesicular gland
The vesicular glands (seminal vesicles), are not found in all species and are not seen in the dog.
Does the organ possess a tubular structure?
0.5 mm

77. SLIDE 169 Vesicular gland
The vesicular glands (seminal vesicles), are not found in all species and are not seen in the dog.
Does the organ possess a tubular structure?
Yes; a compound tubulo-alveolar gland.
glandular area
interlobular septa
capsule
0.5 mm

78. Is the gland secretory or not?
SLIDE 169 Vesicular gland
Is the gland secretory or not?
250 µm

79. Is the gland secretory or not?
SLIDE 169 Vesicular gland
Is the gland secretory or not?
Is the gland secretory or not?
Yes : a fluid gelatinous secretion is produced.
secretion
interlobular septa,
loose connective tissue
with smooth muscle
250 µm

80. Is the epithelium stratified, pseudostratified or simple?
SLIDE 169 Vesicular gland
Is the epithelium stratified, pseudostratified or simple?
100 µm

81. SLIDE 169 Vesicular gland
Is the epithelium stratified, pseudostratified or simple?
Epithelium is formed of pseudostratified, columnar cells with shorter basal cells.
interlobular septum with smooth muscle
pseudostratified epithelium
columnar and basal cells
secretion
25 µm

82. What kind of reproductive organ is it?
SLIDE 169 Vesicular gland
What kind of reproductive organ is it?
100 µm

83. What kind of reproductive organ is it?
SLIDE 169 Vesicular gland
What kind of reproductive organ is it?
An accessory gland, (absent in the dog).
What might be its function?
What kind of reproductive organ is it?
interlobular septum
pseudostratified
epithelium
secretion
100 µm

84. What kind of reproductive organ is it?
SLIDE 169 Vesicular gland
What kind of reproductive organ is it?
An accessory gland, (absent in the dog).
What might be its function?
The secretory product is gelatinous and is rich in fructose; so providing an energy source for the spermatozoa.
What kind of reproductive organ is it?
interlobular septum
pseudostratified
epithelium
secretion
100 µm

85. Lectures. Prof Paul Watson
Second Year Histology Male Reproductive. J.Bredl
Gross Anatomy Correlates. Dr.S.Frean.
Histology Slides and Stains. Tanya Hopcroft.
Compressed version updated /6, 2007.