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SMlTHSClNlAN SCI  NCE INFORMATION EXCHA GE
PROJECT NUMBER  Do NOT use this space r     U.S. DEPARTMENT OF       PROJECT NUMBER
                        HEALTH EOUCATI ON AND WELFARE
            PtlBLI;OCH:;~T$SERVICE
                        INTRAYURAL RESEARCH PROJECT    201 HL 00002-04 LBG

PER I OD COVERED
July 1, 1976 through September 30, 1977

TITLE OF PROJECT (80 characters or less)

I

I  Morphine Receptors as Regulators of Adenylate Cyclase         I

         INSTITUTE AFFILIATIONS, AND TITLES OF PRINCIPAL INVESTIGATORS AND ALL OTHER
PROFESSIONAL PERSONNEL ENGAGED ON THE PROJECT

PI:   Marshall Nirenberg    Chief, LBG              LBG NHLBI
OTHER:  Arthur Lampert       Guest Worker            LBG NHLBI
      James Kenimer        Staff Fellow            LBG NHLBI

Werner Klee

Research Chemist         LGCB NIMH

COOPERATING UNITS (if any)

Laboratory of General and Comparative Biochemistry, NIMH

LAB/BRANCH
Laboratory of Biochemical Genetics
s:                   .

Section on Molecular Biology

INSTITUTE AND LOCATION

NHLBL, NIH, Bethesda, Maryland 20014
TOTAL MANYEARS:            PROFESS I ON AL:           OTHER:

CHECK APPROPRIATE BOX(ES)
7 (a) HUMAN SUBJECTS        0 (b) HUMAN TISSUES       e (c) NEITHER

a (al) MINORS 0 (a2) INTERVIEWS
SUMMARY OF WORK (200 words or less - underline keywords)
   The objectives are to elucidate the mechanisms of dependence upon opiates
and to define the effects of opiate peptides on cells.

PM-6040
(Rev. I O-76)


201 HL 00002-04 LBG

Project Description:

  Endorphin peptides were shown to inhibit adenylate cyclase of NGlO&15
cells.  The inhibition constants (K.) were 12, 40, 63 and 98 nM for methionine
enkephalin, leucine enkephalin, B-ehdorphin and a-endorphin, respectively.
Thus, the endorphins are the most potent peptide inhibitors known and thus,
the activations of adenylate cyclase by other species of neurotransmitters or
hormones are suppressed.  In effect, the opiate peptides act as pleitropic
desensitizers of many kinds of receptors, which in concert with the correspond-
ing ligands, activate adenylate cyclase.  Exposure of cells to methionine
enkephalin for 12 to 97 hours results in an increase in adenylate cyclase activ-
ity which compensates for the inhibition of enzyme activity by methionine
enkephalin.  The cells then have normal CAMP levels and appear tolerant to
methionine enkephalin because the increase in adenylate cyclase activity is
approximately equal to the inhibition of enzyme activity by the peptide.
However, the cells are dependent upon the opiate to maintain normal cyclic
AMP levels.  Withdrawal of methionine enkephalin removes the enzyme inhibition
and reveals abnormally high adenylate cyclase activity.  Dual regulation of
adenylate cyclase by opiates thus accounts for the phenomena of narcotic
dependence and tolerance. Thus, the endorphin peptides and narcotics are plei-
tropic regulators of cell responses to neurotransmitters and hormones which
are coupled to the activation of adenylate cyclase.  In this way, opiates can
alter the perception of neurons to incoming messages which are destined for
adenylate cyclase.

  Reactions mediated by the opiate receptors that inhibit adenylate cyclase
are closely coupled to subsequent reactions that gradually increase adenylate
cyclase activity of neuroblastoma x glioma NG108-15 hybrid cells.  Opiate-
treated cells have higher basal-, PGEl-, and 2-chloroadenosine-stimulated activ-
ities than control cells.  However, NaF or guanosine 5'-(B,a-imido)triphosphate
abolish most of the difference in adenylate cyclase activity observed with
homogenates from control and opiate-treated cells. Cycloheximide blocked some,
but not all, of the opiate-dependent increase in adenylate cyclase activity.
These results suggest that the opiate-dependent increase in adenylate cyclase
is due to conversion of adenylate cyclase to a form with altered activity.
Protein synthesis also is required for part of the opiate effect.  A hypothesis
is proposed that the activity of adenylate cyclase determines the rate of con-
version of the enzyme from a high to a low activity form or via a new opiate,
by inhibiting adenylate cyclase.

Leu5]-, Highly gurif'ed
         3  [Leu5
     [Ser ,Leu I-,  JenkeThalin an$ sevFn derivatives in~~~~~;rtJA~;Yl~ph
           [Ser ,Leu I-, [Aba ,Leu I-, and [des-Gly
alin were obtained by solid phase synthesis and their morphine-like activities
in neuroblastoma x glioma cell homogenates were measured.  Changes at the 2,
3, and 5 positio3s of the enkephalin provided analogues which were all less
active than [Leu lenkephalin.  The results are discussed in terms of recently
suggested conformational structures for ths enkephalin peptiges. 5No melanocyte
      ctivity was observed for [Leu lenkephalin, [Ala ,Leu lenkephalin,
!:i~~?5~~~u']enkephalin
                           .

2


ZOl HL 00002-04 LBG

   Significance to Biomedical Research.  Effects of endogenous opiate peptides
on adenylate cyclase activity was defined and molecular mechanisms for the
phenomena of narcotic dependence and tolerance were proposed.

   Proposed Course:  Further studies on the regulation of adenylate cyclase
by narcotics and endorphin peptides and the mechanism of coupling inhibition
of adenylate cyclase with a subsequent increase in adenylate cyclase activity
are in progress. :"

Publications:

1.  Lampert, Arthur, Nirenberg, Marshall and Klee, Werner A.:  Tolerance and

dependence evoked by an endogenous opiate peptide. Proc. Natl. Acad. Sci.
USA 73:  3165-3167.

2.  Klee, Werner A., Lampert, Arthur and Nirenberg, Marshall:  Dual regulation
of adenylate cyclase by endogenous opiate peptides. In:  Kosterlitz, H. (Ed.):
Opiates and Endogenous Opioid Peptides.  Amsterdam, Elsevier/North Holland
Biomedical Press, 1976, pp. 153-159.

3.  Goldstein, Avram, Cox, Brian M., Klee, Werner A. and Nirenberg, Marshall:
Endorphin from pituitary inhibits cyclic AMP formation in homogenates of
neuroblastoma x glioma hybrid cells.  Nature 265:  362-363, 1977.

4.  Agarwal, Nirankar S., Hruby, Victor J., Katz, Robert, Klee, Werner and
Nirenberg, Marshall:  Synthesis of leucine enkephalin derivatives:  Structure-
function studies.- Biochem. Biophys. Res. Commun. 76: 129-135, 1977.

5.  Klee, Werner A. and Nirenberg, Marshall:  Mode of action of endogenous
opiate peptides.  Nature 263:  609-612, 1976.

6.  Nirenberg, Marshall:  Studies on synapse formation and opiate dependence.
J. Natl. Cancer Inst., in press.

7.  Sharma, Shail K., Klee, Werner A. and Nirenberg, Marshall:  Opiate
dependent modulation of adenylate cyclase. Proc. Natl. Acad. Sci. USA, in
press.

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