L. Persani et al., CIRCADIAN VARIATIONS OF THYROTROPIN BIOACTIVITY IN NORMAL SUBJECTS AND PATIENTS WITH PRIMARY HYPOTHYROIDISM, The Journal of clinical endocrinology and metabolism, 80(9), 1995, pp. 2722-2728
Circadian rhythm of TSH secretion is characterized by a pronounced noc
turnal increment that is not followed by the expected rise of circulat
ing thyroid hormone levels. These findings suggest that the nocturnal
TSH surge may be constituted by molecules with reduced bioactivity. We
, therefore, investigated TSH bioactivity (measured as cAMP accumulati
on in FRTL-5 cells) and its carbohydrate structure (by Concanavalin A
affinity chromatography) in different blood pools taken during the day
and night from seven normal subjects and from one patient with mild (
mPH) and five with severe primary hypothyroidism (sPH). Patients with
sPH were also studied during low dose L-T-4 treatment. Cosinor analysi
s showed a significant TSH circadian rhythm in the control group and i
n L-T-4-treated sPH patients. The nocturnal TSH surge was not followed
by any increase in free thyroid hormone levels. In normal subjects, t
he daytime ratio of TSH bioactivity to immunoreactivity (TSH B/I) was
higher than the nocturnal one [1.4 +/- 0.6 (+/-SD) vs. 1.1 +/- 0.6; P
< 0.02]. The same pattern was observed in the only mPH patient (1.0 +/
- 0.2 vs. 0.7 +/- 0.1; P < 0.01), but not in the sPH patients (0.8 +/-
0.3 vs. 0.7 +/- 0.1; P = 0.3). L-T-4 administration to sPH patients c
aused the daytime TSH B/I to increase and restored the day/night diffe
rence in the TSH B/I (1.0 +/- 0.3 us. 0.8 +/- 0.3; P < 0.02). Concanav
alin A chromatography showed that a higher percentage of less mature f
orms of TSH are secreted during the night. These data indicate that TS
H molecules secreted during the night are less bioactive and different
ly glycosylated than those circulating in the same individual during t
he day, thus explaining why thyroid hormone levels do not rise after t
he nocturnal TSH surge. In sPH patients, the TSH circadian rhythm is r
estored during L-T-4 administration, and day/night differences in TSH
B/I similar to those recorded in normal subjects are observed.