|Year : 2012 | Volume
| Issue : 5 | Page : 833-835
Spontaneous reduction of prolactinoma post cabergoline withdrawal
Sampath Kumar Venkatesh1, Deepak Kothari1, Smita Manchanda2, Anil Taneja2, Bindu Kulshreshtha1
1 Department of Endocrinology, Dr. Ram Manohar Lohia Hospital, New Delhi, India
2 Department of Radiodiagnosis, Dr. Ram Manohar Lohia Hospital, New Delhi, India
|Date of Web Publication||6-Sep-2012|
Department of Endocrinology, Dr. Ram Manohar Lohia Hospital, New Delhi
Source of Support: None, Conflict of Interest: None
| Abstract|| |
Prolactinomas are common pituitary tumors usually highly responsive to dopamine agonists. Around 70-90% of the prolactinomas exhibit decrease in tumor size, though variably with these agents. Uncommonly, there may be little or no shrinkage in pituitary tumor. In the absence of medical therapy, pituitary apoplexy may also result in tumor shrinkage, albeit rarely. We report here a case showing only modest reduction in prolactinoma with cabergoline given for a period of one and a half years. Surprisingly, this tumor showed a 40% reduction in the tumor size 3 months after cabergoline withdrawal in the absence of clinical or radiological evidence of apoplexy.
Keywords: Cabergoline withdrawal, prolactinoma, spontaneous involution
|How to cite this article:|
Venkatesh SK, Kothari D, Manchanda S, Taneja A, Kulshreshtha B. Spontaneous reduction of prolactinoma post cabergoline withdrawal. Indian J Endocr Metab 2012;16:833-5
|How to cite this URL:|
Venkatesh SK, Kothari D, Manchanda S, Taneja A, Kulshreshtha B. Spontaneous reduction of prolactinoma post cabergoline withdrawal. Indian J Endocr Metab [serial online] 2012 [cited 2021 Jan 21];16:833-5. Available from: https://www.ijem.in/text.asp?2012/16/5/833/100656
| Introduction|| |
Tumors arising from lactotrope cells account for about half of all functioning pituitary tumors. Oral dopamine agonists (cabergoline or bromocriptine) are the mainstay of therapy for patients with prolactinomas. Dopamine agonists suppress prolactin secretion and synthesis as well as lactotrope cell proliferation. About 10-30% of patients are resistant to dopamine agonists, these adenomas may exhibit decreased D2 dopamine receptor numbers or a postreceptor defect. , Pharmacologic resistance to DA agonists has been variously defined and refers to failure to respond to such agents in terms of either normalization of PRL levels, or reduction of prolactin levels by 50% or a reduction in tumor size by at least 50%. , Resistance to bromocriptine therapy is common with almost 25-30% of patients showing failure to normalize PRL levels. , On the other hand, resistance to cabergoline therapy is described rarely in only around 4-9% of patients. ,,
Shrinkage of tumor usually occurs while on dopamine agonist therapy. Histopathological specimens reveal involution of the endoplasmic reticulum and golgi apparatus with shrinkage of individual cells in most cases. , Rarely, involution of tumor may also occur post pituitary apoplexy in treatment naοve patients. We report here a case who showed biochemical response; however, there was no change in tumor size over 2 years with cabergoline treatment. Surprisingly, there was a 40% reduction in tumor size in the absence of clinical or radiological evidence of apoplexy after 3 months of stopping cabergoline.
| Case Report|| |
A 48-year-old male presented to the endocrinology department of this hospital with complaints of episodic headache for the past 10 years, with increasing severity for 2 years. There were no complaints suggestive of visual field defects. The patient also complained of decreased libido and erectile dysfunction. His shaving frequency had decreased to once per week. He had been a diabetic for four years and had been well controlled on metformin. Examination including genitalia and virilization was essentially normal, galactorrhea was absent. MRI sella revealed a large pituitary lesion (13×10 mm) in the right half of pituitary gland [Figure 1]. Prolactin levels were 557.67 ng/ml (3-20ng/ ml). LH, FSH and testosterone levels were 0.81, 0.38 and 1.56 ng/ml respectively. Thyroid profile and serum cortisol levels were normal. A diagnosis of prolactinoma was made and the patient was started on cabergoline 0.5 mg thrice a week. The prolactin levels gradually came down to normal over a period of 3-4 months (51, 19, and 14ng/ml over consecutive month). Improvement in sexual functions was also reported by the patient. Prolactin levels remained normal with cabergoline. MRI done 4 months later showed around 15% reduction in tumor size (11×10 mm) [Figure 2]. However, MRI done one year later showed no significant change in mass (10×9 mm) [Figure 3]. He also complained of daily headaches requiring analgesics. Cabergoline was stopped and the patient was referred to neurosurgery for further intervention. After 3 months, a repeat MRI was done, which surprisingly showed a significant (40%) reduction in size of pituitary tumor (6×5 mm) [Figure 4]. Patient reported improvement in headache with frequency now reduced to once a week. There was modest elevation of prolactin levels from 11.7 to 34.2 ng/ml. Decrease in libido was managed with testosterone injections.
|Figure 1: Coronal T1 WI of sella reveals a hypointense mass lesion involving the right half of pituitary gland of size 13 × 10 mm|
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|Figure 2: Follow-up MRI scan at 4 months reveals mild (15%) reduction|
in tumor size
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|Figure 4: MRI scan (post cabergoline withdrawal) shows a significant (40%) reduction in tumor size|
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| Discussion|| |
Dopamine agonists inhibit PRL secretion by activation of lactotroph dopamine D2 receptors. Activation of the D2 receptor results in the inhibition of PRL synthesis and secretion through a number of pathways mediated by several G proteins. Gai2 mediates D2-induced adenylcyclase inhibition which is probably the major pathway involved in decreasing PRL gene transcription, , as well as the inhibition of phospholipase C,  which is necessary for activation of phosphoinositide pathways.  Gao also couples the D2 receptor to constitutive and hormone stimulated levels of activated mitogen activated protein kinase (MAPK) and extracellular signal regulated kinases (ERK1 and ERK2), thereby inhibiting cell proliferation. ,
A number of mechanisms have been proposed to explain resistance to dopamine agonists in patients with prolactinoma. These include decreased absorption of medication, decreased number of D2 receptors, and decreased affinity of the D2 receptors for the dopamine agonists and altered intracellular signal transduction in the resistant tumor.
Involution of prolactinomas usually occurs while on dopamine agonist therapy. The histopathological findings include shrunken island-like cell nests, acellular spaces consisting of hyaline substance and fibrosis, and degenerative necrotic tumor cells.  The regression of tumors with dopamine agonists may either occur concurrently or may be delayed long after hormonal reduction. The delayed effect of dopamine agonists after stopping therapy was systematically analyzed in a meta-analysis of 19 studies involving 743 patients by Dekkers et al. Normoprolactinemia was variously reported between 0 and 74% in different studies after at least 6 months of dopamine agonist withdrawal. However, there was no evaluation of the tumor size in the post drug withdrawal period in this study. Involution of prolactinomas may also occur post pituitary apoplexy.  Pituitary hemorrhage is commonly associated with the use of dopamine agonists, but may also occur in the absence of any treatment. Although coagulation disorders, sepsis or systemic illness are known to precipitate pituitary apoplexy, the underlying mechanisms are poorly understood.
Our present case showed prompt reduction in the prolactin levels and some initial decrease in tumor size with cabergoline therapy. However, there was no subsequent decrease in tumor size after one year of therapy. Surprisingly this patient showed a 40% reduction in tumor size and only modest increase in prolactin levels after 3 months of withdrawal of therapy. There were no apparent clinical signs or radiological evidence to suggest pituitary apoplexy. Rainov et al. described spontaneous reduction of macroprolactinoma in a male patient over a period of 6 months without therapy.  It is possible that a silent pituitary apoplexy or a delayed atrophic effect of dopamine agonists may have caused tumor reduction in the present case. However, on cabergoline therapy there was only a marginal reduction in tumor size.
In conclusion, this is a rare case of prolactinoma where tumor reduction is observed after withdrawal of the dopamine agonists.
| References|| |
|1.||Molitch ME, Elton RL, Blackwell RE, Caldwell B, Chang RJ, Jaffe R, et al.Bromocriptine as primary therapy for prolactin-secreting macroadenomas: Results of a prospective multicenter study. J Clin Endocrinol Metab 1985;60:698-705. |
|2.||Webster J, Piscitelli G, Polli A, Ferrari CI, Ismail I, Scanlon MF. A comparison of cabergoline and bromocriptine in the treatment of hyperprolactinemic amenorrhea. Cabergoline Comparative Study Group. N Engl J Med 1994;331:904-9. |
|3.||Olafsdottir A, Schlechte J. Management of resistant prolactinomas.Nat Clin Pract Endocrinol Metab 2006;2:552-61. |
|4.||Molich ME. Pharmacological resistance in prolactinoma patients. Pituitary 2005;8:43-52. |
|5.||Iván G, Szigeti-Csúcs N, Oláh M, Nagy GM, Góth MI. Treatment of pituitary tumors: Dopamine agonists. Endocrine 2005;28:101-10. |
|6.||Webster J. Clinical management of prolactinomas.Baillieres Best Pract Res Clin Endocrinol Metab 1999;13:395-408. |
|7.||Tindall GT, Kovacs Tindall GT, Kovacs K, Horvath E, Thorner MO. Human prolactin producing adenomas and bromocriptine: A histological, immunocytochemical, ultrastructural, and morphometric study. J Clin Endocrinol Metab 1982;55:1178-83. |
|8.||Bassetti M, Spada A, Pezzo G, Giannattasio G. Bromocriptine treatment reduces the cell size in human macroprolactinomas: A morphometric study. J Clin Endocrinol Metab 1984;58:268-73. |
|9.||De Camili P, Maconi D, Spada A. Dopamine inhibits adenylate cyclise in human prolactin secreting pituitary adenomas. Nature 1979;278:252-4. |
|10.||Senogles SE. The D2 dopamine receptor isoforms signal through distinct Gia proteins to inhibit adenylyl cyclase. J Biol Chem 1994;269:23120-7. |
|11.||Rasolonjanahary R, Gerard C, Dufour MN, Hamburger V, Enjalbert A, Guillon G. Evidence fora direct negative coupling between dopamine-D2 receptors and PLC by heterotrimeric Gi1/2 proteins in rat anterior pituitary cell membrans. Endocrinology 2002;143:747- 54. |
|12.||Vallar L, Vincentini LM, Meldolesi J. Inhibition of inositol phosphate production is a late Ca2+ dependent effect of D2 dopaminergic receptor activation in rat lactotroph cells. J Biol Chem 1988;263:10127-34. |
|13.||Liu JC, Baker RE, Sun C, Sundmark VC, Elsholtz HP. Activation of G0-coupled dopamine D2 receptors inhibits ERK1/ERK2 in pituitary cells. Akey step in the transcriptional suppression of the prolactin gene. J Biol Chem 2002;277:35819-25. |
|14.||Iaccarino C, Samad TA, Mathis C, Kercret H, Picetti R, Borrelli E. Control of lactotroph proliferation by dopamine: Essential role of signalling through D2 receptors and ERKS. Proc Natl Acad Sci U S A2002;99:14530-5. |
|15.||Gen M, Uozumi T, Ohta M, Ito A, Kajiwara H, Mori S. Necrotic changes in prolactinomas after long term administration of bromocriptine. J Clin Endocrinol Metab 1984;59:463-70. |
|16.||Dekkers OM, Lagro J, Burman P, Jørgensen JO, Romijn JA, Pereira AM. Recurrence of hyperprolactinemia after withdrawal of dopamine agonists: Systematic review and meta-analysis. J Clin Endocrinol Metab 2010;95:43-51. |
|17.||Nishioka H, Haraoka J, Miki T. Spontaneous remission of functioning pituitary adenomas without hypopituitarism following infarctive apoplexy: Two case reports. Endocr J 2005;52:117-23. |
|18.||Rainov NG, Burkert W. Spontaneous shrinking of a macroprolactinoma. Neurochirurgia (Stuttg) 1993;36:17-9. |
[Figure 1], [Figure 2], [Figure 3], [Figure 4]