Choriocarcinoma Clinical Trial
Official title:
Conformation of Beta Human Chorionic Gonadotropin During Chemotherapy for Persistent Gestational Trophoblastic Tumors Using Atomic Force Microscopy and Dual Polarisation Interferometry
Gestational trophoblastic disease comprises a spectrum of diseases with different propensity for local invasion and metastasis, that is, partial and complete hydatidiform mole, choriocarcinoma, and placental site trophoblastic tumor.All trophoblastic tumors produce hCG, and monitoring of therapy is largely based on the determination of hCG in serum. The conformational change of tumor markers during antineoplastic chemotherapy for cancer and its clinical meaning has only been rarely studied. In this study, we will try to understand the conformational change of the tumor marker (hCG) during chemotherapy.
The conformational change of human chorionic gonadotropin beta (hCG beta) during
chemotherapy for gestational trophoblastic disease and its clinical meaning have not been
well understood. In this study we will use atomic force microscopy and dual polarisation
interferometry to measure the dimensions and conformational change of beta human chorionic
gonadotropin during chemotherapy for persistent gestational trophoblastic tumors.
Gestational trophoblastic disease comprises a spectrum of diseases with different propensity
for local invasion and metastasis, that is, partial and complete hydatidiform mole,
choriocarcinoma, and placental site trophoblastic tumor. Persistent trophoblastic disease
may develop both from partial and complete moles. All trophoblastic tumors produce human
chorionic gonadotropin (hCG), and monitoring of therapy is largely based on the
determination of hCG in serum. The more malignant forms also express excessive amounts of
hCG beta, and simultaneous determination of hCG and hCG beta can be used to differentiate
between molar disease and trophoblastic cancer, which is associated with a proportion of hCG
beta exceeding 5%. Over glycosylated hCG has also been reported to be a characteristic of
trophoblastic cancer, but its clinical utility remains to be established. The hCG beta level
in serum is also used to evaluate prognosis with not only very high but also very low levels
in relation to tumor burden being indicative of adverse prognosis. Because of that: 1). more
malignant forms also express excessive amounts of hCG beta; 2). the half-life of hCG beta is
longer than that of hCG; 3). the hCG beta /hCG ratio will increase when the levels decrease
after successful therapy; and 4). the ratio has been found to increase during development of
therapy-resistant disease, monitoring of gestational trophoblastic disease usually relies on
human chorionic gonadotropin beta measurement. Treatment of choriocarcinoma is most often
monitored by serial assay of hCG beta in serum until the levels are undetectable, and
simultaneous determination of hCG beta can sometimes reveal a relapse earlier than hCG.
Therefore, measurement of hCG beta is important in treatment of gestational trophoblastic
tumors.
Human choriogonadotropin belongs to a family of heterodimeric glycoprotein hormones which
are comprised of two noncovalently bonded subunits with four N-linked carbohydrates. During
chemotherapy, the hCG beta molecules can be degraded. A study has been reported by
crystallographic analysis by which they found that crystals of deglycosylated human
chorionic gonadotropin has a hexagonal bipyramidal structure using a method of vapor
diffusion against ammonium sulfate. Previously, conformation of the hCG molecule has rarely
been studied. By chemical method, over glycosylated hCG has been reported to be a
characteristic of trophoblastic cancer, but its clinical utility remains to be established.
Photoelectric method is a newly developed method to study the conformation of the protein or
glycoprotein molecules. As yet, there is no report about the conformation of hCG serial
studies. Gestational trophoblastic tumor as well as other gynecological cancers often
underwent antitumor chemotherapy and monitor by tumor markers. During the antineoplastic
chemotherapies, the conformational change of tumor markers, including hCG beta in persistent
gestational trophoblastic tumor for cancer and its clinical meaning has only been rarely
studied. Up to the present time, it is still not well understood whether a conformational
change or reduced stability of the heterodimer may occur during chemotherapy.
In this study we will use an atomic force microscopy (AFM) to probe the surface
nanostructure of beta human chorionic gonadotropin. The conformational change of the beta
human chorionic gonadotropin which is secreted by persistent gestational trophoblastic
tumors during chemotherapy will be studied. We will also want to directly visualize a single
molecular structure of beta human chorionic gonadotropin, and quantitative measurements of
the dimensions of the glycoprotein will be provided. The average height calculated for each
hCG beta particle will be measured and compared subsequently during chemotherapy. Moreover,
a experiment using dual polarization interferometric (DPI) as a biosensor will also be
performed, and the average monolayer thickness value will also be calculated. To investigate
further the surface ultrastructure of a hCG beta molecule, a hCG beta sample at very low
concentration will be scanned in vacuum by AFM. The higher-resolution images will clearly
reveal the shape of hCG beta molecules. In addition, phase images of hCG beta molecules will
be captured simultaneously with their height images, and the lateral dimensions of the shape
of hCG beta molecules will then be measured and calculated. The average values calculated
for the outside diameter and pore diameter will thus be obtained. This study will represent
the first direct characterization of the surface ultrastructure of the hCG beta molecule at
a nanometer scale. The physical measurements of the outer diameter, pore diameter, and
protomer diameter in the hCG beta by AFM and DPI may suggest how to recognize hCG beta
molecules, which constitute an important tumor marker during chemotherapy for persistent
gestational trophoblastic tumors. Unraveling the molecular structure and measuring the
dimensions of hCG beta may provide new directions for future application in clinical hCG
beta sensor chips. In can also be likely that the dimensional change of hCG beta molecules
may also have some clinical implications for persistent gestational trophoblastic tumors.
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