We have previously observed 3- to 10-fold increases in pituitary LH beta-subunit mRNA levels in the rat 28 days after castration. These changes correlate with increases in percentages and areas of cells that bear the LH beta mRNA and with the amount of label for mRNA per cell. In contrast, FSH beta mRNA levels increase 2.5- to 4-fold 7-14 days after castration, decline to near-intact levels 28 days postcastration, and rise 4.5-fold by 96 days postcastration. The purpose of this study was to determine morphological correlates of these changes in FSH beta mRNA levels. Dispersed pituitary cells from intact and castrated rats were analyzed for FSH beta and LH beta mRNAs and protein by in situ hybridization techniques and immunocytochemistry, respectively. In intact animals over 79% of pituitary cells labeled for FSH beta mRNA were small (area less than 150 microns 2). However, 7 days after castration, the average area of labeled cells increased 4-fold (80% were over 200 microns 2 in area), without a significant change in percentages of FSH beta mRNA-containing cells. The amount of mRNA per cell (as measured by area of label per cell) increased 6-fold. Fourteen days after castration, the average area of cells containing FSH beta mRNA decreased to 2 times that in intact rats (48% were greater than 200 microns 2). The percentage of labeled cells increased from 11% (intact) to 20%. Furthermore, the dual labeling studies showed that 37% of these FSH cells were monohormonal (detected by FSH beta mRNA, but not LH beta antigen) compared with 23% in intact rats. At this same time, the FSH cells exhibited a decrease in the amount of mRNA per cell. In 21- to 84-day castrates, average areas of FSH beta mRNA remained at 2-2.5 times the areas of cells from intact rats. In addition, 21 days after surgery the percentages of labeled cells and amount of FSH beta mRNA per cell declined to those in intact rats. A greater proportion was multihormonal (only 15% expressed FSH beta mRNA but not LH beta antigens). At 84 days there were 2-fold increases in the percentages of labeled cells and the density of label, which correlate with the recovery in mRNA levels assayed at 96 days. Thus, factors that contribute to the early rise in FSH beta mRNA include increases in the amount of mRNA per cell, which coincides with increased cell area.(ABSTRACT TRUNCATED AT 400 WORDS)