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Interference of Luteinizing Hormone ß-Core Fragment in Urinary Gonadotropin Assays

¹ Irving Center for Clinical Research, and Departments of
² Pathology, and
³ Medicine, Columbia University College, of Physicians and Surgeons, New York, NY 10032
^a Address correspondence to this author at: Irving Center for Clinical Research, Columbia University College of Physicians and Surgeons, 630 W. 168th St., PH10-305, New York, NY 10032. Fax 212-305-3213; e-mail jfo1{at}columbia.edu

To the Editor:

Iles et al. (1) speculated on the value of development of a specific assay to measure human luteinizing hormone ß-core fragment (hLHßcf) without cross-reactivity with human chorionic gonadotropin ß-core fragment (hCGßcf). We wish to draw readers’ attention to the fact that we developed and reported such a specific assay for hLHßcf in 1995 (2) and reviewed the applications of this assay in 1996 (3). We wrote (3) that the assay "may have useful applications in tumor marker assays, pregnancy tests, and menopause". The hLHßcf assay (B505-B503) exhibits 1% cross-reactivity with hLH and 0.1% cross-reactivity with hCGßcf. We found that the assay detects the urinary form of hLHßcf in the urine of normally ovulating women (2). We applied this assay to the urine of postmenopausal women and found significant quantities of hLHßcf but not hCGßcf. The mean concentration of hLHßcf for 107 samples from postmenopausal women was 236 pmol/g creatinine (4). We also measured hCGßcf in the same samples and found that its concentration was one-tenth that of hLHßcf. For hCGßcf, we used our laboratory assay B210-B108 (5), which has 2% cross-reactivity with hLHßcf. These data suggest that to use hCGßcf as a cancer marker, an assay of very high specificity for this molecule is required because of possible cross-reaction with hLHßcf.

We observed in our work that hLHßcf cross-reacted with polyclonal antisera to hLH, suggesting that urinary ovulation test kits that measure intact hLH have the potential for similar hLHßcf cross-reactions if they are based on polyclonal antibodies or monoclonal anti-hLH antibodies that cross-react with hLHßcf. If such should be the case, then the day of ovulation as predicted by the kit could be in error.

The results presented by Iles et al. (1) supported our data published in 1995 (2), 1996 (3), and 1998 (4). It is important to emphasize the potential risk of hLHßcf cross-reactivity in urine when related gonadotropins (e.g., hLH, hLHß, hCG, hCGß, and hCGßcf) are measured.

References

1. Iles RK, Javid MK, Gunn LK, Chard T. Cross-reaction with luteinizing hormone ß-core is responsible for the age-dependent increase of immunoreactive ß-core fragment of human chorionic gonadotropin in women with nonmalignant conditions. Clin Chem 1999;45:532-538. [Abstract/Free Full Text]
2. Kovalevskaya G, Birken S, O’Connor J, Schlatterer J, Maydelman Y, Canfield R. HLH ß core fragment in the urine of ovulating women: a sensitive and specific immunometric assay for its detection. Endocrine 1995;3:881-887. [Web of Science]
3. Birken S, Kovalevskaya G, O’Connor J. Metabolism of hCG and hLH to multiple urinary forms. Mol Cell Endocrinol 1996;125:121-131. [Web of Science][Medline] [Order article via Infotrieve]
4. O’Connor J, Kovalevskaya G, Birken S, Schlatterer J, McMahon D, Schechter D, Canfield R. The expression of the urinary forms of human luteinizing hormone ß fragment in various populations as assessed by a specific immunometric assay. Hum Reprod 1998;13:826-835. [Abstract/Free Full Text]
5. Krichevsky A, Birken S, O’Connor J, Bikel K, Schlatterer J, Yi C, et al. Development and characterization of a new, highly specific antibody to the human chorionic gonadotropin-ß fragment. Endocrinology 1991;128:1255-1264. [Abstract/Free Full Text]

Dr. Iles responds:

Williamson Laboratory, St. Bartholomew’s and, The Royal London School, of Medicine and Dentistry, London EC1A 7BE, UK, E-mail R.K.Iles{at}mds.qmw.ac.uk
^a Address correspondence to this author at: Irving Center for Clinical Research, Columbia University College of Physicians and Surgeons, 630 W. 168th St., PH10-305, New York, NY 10032. Fax 212-305-3213; e-mail jfo1{at}columbia.edu

To the Editor:

O’Connor et al. highlight the important potential for the glycoprotein hormone degradation products to cross-react in gonadotropin and thyrotropin assays. We actually pointed out (1) that increased urinary luteinizing hormone ß-core fragment (LHßcf) seriously compromises the use of hCGßcf as a tumor marker because in our assay it cross-reacted 100% and that urinary human chorionic gonadotropin ß-core fragment (hCGßcf) assays with very low cross-reactivity with LHßcf [such as those discussed in Refs. (2)(3)] need to be developed. Three important and related issues need to be investigated.

The dynamics of LHßcf release into urine and its relation to LH metabolism.
In our 1993 study (4), we found immunoreactive material resembling "beta-core" in the urine of normally menstruating women after the surge in LH, peaking 2 days afterward. Furthermore, whereas the LH surge was clearly discernible as a single-day spike in urinary LH concentrations, the ß-core-like material persisted over 6 days. We speculated that this ß-core-like material was in fact a urinary degradation product of LH similar to the ß-core molecule formed from the degradation of hCG (5). The subsequent isolation of LH-ß-core from pituitary tissue and the development of a LHßcf assay by Kovalevskaya et al. (2) and Birken et al. (6) firmly established that this indeed was an LH-core molecule. This has led to an important new nomenclature for what had previously been referred to as beta-core, namely LHßcf and hCGßcf. Follicle-stimulating hormone ß-core fragment and thyroid-stimulating hormone ß-core fragment probably also exist.

Kovaliskaya et al. (2) and O’Connor et al. (3) also confirmed that urinary LHßcf concentrations peaked 2–3 days after the LH surge and persisted for 6 days. Based on the studies of metabolism (7)(10), although some 22% of intact hCG is removed by direct glomerular filtration, the renal parenchymal cells appear to take up hCG and release the degradation products into the urine. This implies that a slow and specific mechanism exists for the removal, deactivation, and degradation of the glycoprotein hormones. Such an unusual mechanism of metabolic clearance is worthy of further investigation, not only because might it be relevant to understanding the clearance processes of other proteins but because it might have clinical relevance to such diverse areas as altered renal function during disease.

Cross-reactivity effects of the urinary metabolites in studies of ectopic hCG expression.
Urinary LHßcf is a significant confounding factor in the use of hCGßcf as a tumor marker in women (1). The sheer magnitude of the problem is illustrated in the estimates of LHßcf in the urine of pre- and postmenopausal women: as with most biochemical measurements, the range of LHßcf is not gaussian distributed but is skewed, leading to extremely high values at the 95th centile. This problem is compounded further by the midcycle surge in LHßcf up to 70–80 pmol/mol creatinine (600–700 fmol/mg creatinine) and the considerable increase after menopause, with a mean of 27 pmol/mol creatinine (236 fmol/mg creatinine) (2)(3). We estimated that the 75th centile values of urinary LHßcf increase from 410 to 640 pmol/mol creatinine in postmenopausal women (at 40–80 years). Urinary hCGßcf assays used in oncology usually operate in the pmol/L range and have detection limits of 1–10 pmol/L. The concentrations of LHßcf encountered after menopause have a significant cross-reactivity effect on urinary hCGßcf assays, even those with a 0.5% cross-reactivity (Table 1 ). Although a hCGßcf assay with a 2% cross-reactivity is better than the hCGßcf assays I have used, the concentrations of LHßcf are sufficiently high in >25% of postmenopausal women as to still cause a significant false measure in the hCGßcf assay (Table 1 ).

Does LHßcf cross-react in ovulation prediction kits, and if so, does this give a false timing of ovulation?

With the use of home ovulation kits measuring urinary LH surges, it is vital to know whether LHßcf can cross-react in the system. A consequence of such cross-reactivity would be the mistiming of ovulation by up to 3 days. What effect this has on couples trying to conceive is not known and needs investigation. Clearly the discovery of the urinary gonadotropin core fragments has wide implications for the clinical chemistry community. Preparing this letter has highlighted for me the need for international collaboration and standardization because on close examination it would appear that our estimates of the concentration of LHßcf are 10-fold higher than those of O’Connor et al. We need to know the cross-reactivities in gonadotropin assays, but to do this we also need international reference preparations. The laboratory of O’Connor, Kovalevskaya, and Birken appears to be unique in having highly purified preparations of both hCGßcf and LHßcf.

References

1. Iles RK, Javid MK, Gunn LK, Chard T. Cross-reaction with luteinizing hormone ß-core is responsible for the age-dependant increase of immunoreactive ß-core fragment of human chorionic gonadotropin in women with nonmalignant conditions. Clin Chem 1999;45:532-538.
2. Kovalevskaya G, Birken S, O’Connor J, Schlatterer J, Maydelman Y, Canfield R. HLH ß core fragment in the urine of ovulating women: a sensitive and specific immunometric assay for its detection. Endocrine 1995;125:881-887.
3. O’Connor J, Kovalevskaya G, Birken S, Schlatterer J, McMahon D, Canfield R. The expression of the urinary forms of human luteinizing hormone ß fragment in various populations as assessed by a specific immunometric assay. Hum Reprod 1998;13:826-835.
4. Neven P, Iles RK, Howes I, Sharma K, Shepherd JH, Edwards R, et al. Urinary concentration of material resembling ß-core fragment of chorionic gonadotropin ß-subunit in mid-menstrual cycle. Clin Chem 1993;39:1857-1860. [Abstract]
5. Iles RK, Lee CL, Howes I, Davies S, Edwards R, Chard T. Immunoreactive core-like material in normal post menopausal urine: hCG or LH origin? Evidence for the existence of LH-core. J Endocrinol 1992;133:459-466. [Abstract/Free Full Text]
6. Birken S, Chen Y, Gawinowicz MA, Agosto GM, Canfield RE, Hartree AS. Structure and significance of human luteinizing hormone-ß-core fragment purified from human pituitary extracts. Endocrinology 1993;133:985-989. [Abstract/Free Full Text]
7. Wehmann RE, Nisula BC. Metabolic and renal clearance rates of purified human chorionic gonadotropin. J Clin Investig 1981;38:184-194.
8. Blithe DL, Nisula BC. Similarity of the clearance rates of free -subunit and -subunit dissociated from intact human chorionic gonadotropin, despite differences in sialic acid contents. Endocrinology 1987;121:1215-1220. [Abstract/Free Full Text]
9. Rosa C, Amr S, Birken S, Wehmann RE, Nisula B. Effect of desialylation of human chorionic gonadotropin on its metabolic clearance rates in humans. J Clin Endocrinol Metab 1984;59:1215-1219. [Abstract/Free Full Text]
10. Wehmann RE, Nisula BC. Characterisation of a discrete degradation product of human chorionic gonadotropin ß-subunit in humans. J Clin Endocrinol Metab 1980;51:101-105. [Abstract/Free Full Text]

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