Craven A J, Ormandy C J, Robertson F G, Wilkins R J, Kelly P A, Nixon A J, Pearson A J
New Zealand Pastoral Agriculture Research Institute, Hamilton 2020, New Zealand.
Endocrinology. 2001 Jun;142(6):2533-9. doi: 10.1210/endo.142.6.8179.
Pituitary PRL regulates seasonal hair follicle growth cycles in many mammals. Here we present the first evidence implicating PRL in the nonseasonal, wave-like pelage replacement of laboratory mice. In this study we show that messenger RNA transcripts encoding the one long and two short forms of PRL receptor are present in the skin of adult and neonate mice. The receptor protein was immunolocalized to the hair follicle as well as the epidermis and sebaceous glands. Furthermore, PRL messenger RNA was detected within skin extracts, suggesting a possible autocrine/paracrine role. Analysis of the hair growth phenotype of PRL gene-disrupted mice (PRLR(-/-)) revealed a change in the timing of hair cycling events. Although no hair follicle development differences were noted in PRLR(-/-) neonates, observations of the second generation of hair growth revealed PRLR(-/-) mice molted earlier than wild types (PRLR(+/+)). The advance was greater in females (29 days) than in males (4 days), resulting in the elimination of the sexual dimorphism associated with murine hair replacement. Heterozygotes were intermediate between PRLR(-/-) and PRLR(+/+) mice in molt onset. Once initiated, the pattern and progression of the molt across the body were similar in all genotypes. Although all fiber types were present and appeared structurally normal, PRLR(-/-) mice had slightly longer and coarser hair than wild types. These findings demonstrate that PRL has an inhibitory effect on murine hair cycle events. The pituitary PRL regulation of hair follicle cycles observed in seasonally responsive mammals may be a result of pituitary PRL interacting with a local regulatory mechanism.
垂体催乳素(PRL)调节许多哺乳动物的季节性毛囊生长周期。在此,我们首次提供证据表明PRL参与实验室小鼠非季节性、呈波浪状的被毛更替。在本研究中,我们发现成年和新生小鼠皮肤中存在编码一种长形式和两种短形式PRL受体的信使核糖核酸转录物。受体蛋白通过免疫定位发现存在于毛囊以及表皮和皮脂腺中。此外,在皮肤提取物中检测到PRL信使核糖核酸,提示其可能具有自分泌/旁分泌作用。对PRL基因敲除小鼠(PRLR(-/-))毛发生长表型的分析揭示了毛发周期事件时间的变化。虽然在PRLR(-/-)新生小鼠中未观察到毛囊发育差异,但对第二代毛发生长的观察发现,PRLR(-/-)小鼠比野生型(PRLR(+/+))小鼠脱毛更早。雌性(提前29天)比雄性(提前4天)提前的幅度更大,导致与小鼠毛发更替相关的性别二态性消失。杂合子在脱毛开始时间上介于PRLR(-/-)和PRLR(+/+)小鼠之间。一旦开始,所有基因型小鼠全身脱毛的模式和进程相似。虽然所有纤维类型均存在且结构上看似正常,但PRLR(-/-)小鼠的毛发比野生型略长且更粗。这些发现表明PRL对小鼠毛发周期事件具有抑制作用。在季节性反应性哺乳动物中观察到的垂体PRL对毛囊周期的调节可能是垂体PRL与局部调节机制相互作用的结果。
