00:01
Now, we´re gonna discuss the mesoderm and the structures that form from it.
00:05
We´re gonna start with the paraxial mesoderm
and then move to the intermediate mesoderm.
00:10
So please remember that we discussed how the ectoderm folds the neural tube
which is gonna fold into the mesoderm
and take up residence just above the notochord.
00:20
On either side it´s flanked by paraxial mesoderm.
00:23
Now, this paraxial mesoderm as development proceeds
is gonna form structures that are called somites.
00:29
Now, the somites are actually distinctive bulges that are present
and visible on the dorsal surfaces of the embryo.
00:37
So if we look at the image on the left we can see them starting to form,
but as the neural tube fully moves into the mesoderm and the embryo on the right
we can see distinctive and clear somites on either side.
00:50
Now, the somites are closely associated with each spinal level
and therefore we´re gonna see 4 occipital, 8 cervical, 12 thoracic,
and then 5 lumbar, 5 sacral and a variable number of coccygeal somites.
01:05
Now, the somites are coming from the paraxial mesoderm
and are going to split into three separate regions
that would come up with three distinctive sets of structures.
01:17
The first one is called the dermatome
and the dermatome becomes part of the skin.
01:22
The ectoderm creates the epidermis, the outermost layer of skin,
but the dermatome becomes the inner layer of the skin, the dermis.
01:31
Deep to that is the myotome
and as its name suggests the myotome is gonna create muscles,
specifically the muscles of the trunk, the back and the limbs.
01:43
Now, deepest of all is the sclerotome and sclerotome is gonna form bony structures
that largely protect the developing neural tube and spinal cord.
01:53
So it´s gonna form the vertebra, the intervertebral discs, the meninges,
the structures that line the spinal canal and the ribs.
02:01
So here we can see that the mesenchyme that´s present in the sclerotome
is starting to differentiate into a little model that´s going to form bone.
02:12
Now, in this image it doesn´t initially look much like a vertebra
but there are various regions,
the ventral, dorsal, lateral and central regions of the sclerotome
that are gonna migrate to form an actual model of the vertebra.
02:25
The body and pedicles
are gonna come from the ventral and central portions of the sclerotome.
02:33
More laterally, the lateral region is gonna form the transverse processes
and extend outward to form the ribs.
02:40
The dorsal region´s gonna go back and surround the neural tube completely
and form the spinous processes and lamina of each vertebra.
02:50
And then, the inner most region that´s in contact
with the spinal cord is gonna form the meninges,
the protective layer, the dura mater, arachnoid mater and so forth.
03:01
And so in the process you can see how it starts to look a little bit more like a vertebra.
03:05
Now, let´s move one layer out from the paraxial mesoderm to the intermediate mesoderm.
03:12
Intermediate mesoderm is easy to remember because it´s going to form the gonads,
which are the ovaries or testes, and the kidneys.
03:21
During development the body wall wraps around the trilaminar embryo
and in the process make sure that the kidneys and the gonads wind up
what´s called retroperitoneal or they´re behind the peritoneal cavity.
03:36
So here we can see the nephrogenic cord and urogenital ridge
form into the intermediate mesoderm.
03:43
Now, the nephrogenic cord is gonna form the early kidney
and the urogenital ridge is gonna form either the testis or the ovary.
03:51
Now, posterior inside the retroperitoneal we´re gonna have the developing kidneys
and just superficial to that,
the urogenital ridge which will form the testes and the ovaries
and each one of those topics will have their own discussion
and talk coming up in the near future.
04:06
Thank you very much and we´ll move on to discuss the fate of the lateral plate mesoderm
hich actually makes the body wall that surrounds all of these structures.
04:15
WT1 mutations are examples of what can go wrong during the development of the intermediate mesoderm.
04:21
The expression of the WT1 gene is important in the normal development of the intermediate mesoderm.
04:28
Therefore, mutations in this gene can result in abnormalities in the development of structures
that arise from the intermediate mesoderm.
WT1 mutations are associated with renal agenesis and gonadal dysgenesis.
04:44
Moreover, the myocardium in patients with WT1 mutations is found to be thinner
than those with normal WT1.