Hyaluronic AcidanimalAnimal model1979

Ultrastructural features of acidic complex carbohydrates in the intercellular matrix of the ovarian follicles in adult mice.

Histochemistry

confidence

Key findings

Ultrastructural study of acidic complex carbohydrates (hyaluronic acid, isomeric chondroitin sulfates, other GAGs) in mouse ovarian follicle intercellular matrix; no clinical/biological endpoints reported.

View source on PubMed (PMID 457445) ↗

Sample size
Not reported
Population
Adult mice ovarian follicles
Dosing
Not reported
Duration
Not reported
Route
Not reported
Blinding
not_reported
Controls
not_reported
Drug class
glycosaminoglycan
Full abstract

In the intercellular matrix of the granulosa layer of the mouse ovarian follicles, ultrastructural features of acidic complex carbohydrates have been studied by means of dialyzed iron (DI) staining in combination with procedures of digestion with Streptomyces and testicular hyaluronidases. In the intercellular matrix, DI reactive structures containing acidic complex carbohydrates consist of layers of a variable thickness coating the plasma membrane of the granulosa cells and reticular elements distributed in the spaces between the cells. The latter exists in two appearances; one is clumped masses of irregular shapes and different sizes, whereas the other being filamentous figures radiating from the masses. The effects of digestion with Streptomyces and testicular hyaluronidases upon the DI staining of the tissues indicate that the DI reactive structures in the intercellular matrix contain at least three types of acidic complex carbohydrates; hyaluronic acid, isomeric chondroitin sulfates and other acidic glycosaminoglycans. The histophysiological activities played by these particular complex carbohydrates have been briefly discussed.

Research information, not medical advice. StudyKit summarizes published studies to help you understand your protocol. It does not diagnose, treat, or replace a clinician. Talk to a qualified provider before changing anything you take.