Nickel-Catalyzed Asymmetric Reductive Cross-Coupling between

Aug 9, 2015 - A Ni-catalyzed asymmetric reductive cross-coupling of heteroaryl iodides and α-chloronitriles has been developed. This method furnishes...
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Communication

Nickel-Catalyzed Asymmetric Reductive Cross-Coupling between Heteroaryl Iodides and #-Chloronitriles. Nathaniel T. Kadunce, and Sarah E. Reisman J. Am. Chem. Soc., Just Accepted Manuscript • Publication Date (Web): 09 Aug 2015 Downloaded from http://pubs.acs.org on August 9, 2015

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Journal of the American Chemical Society

Nickel-Catalyzed Asymmetric Reductive Cross-Coupling between Heteroaryl Iodides and α-Chloronitriles. Nathaniel T. Kadunce and Sarah E. Reisman* The Warren and Katharine Schlinger Laboratory for Chemistry and Chemical Engineering, Division of Chemistry and Chemical Engineering, California Institute of Technology, Pasadena, CA 91125, United States.

Supporting Information Placeholder ABSTRACT: A Ni-catalyzed asymmetric reductive cross-

coupling of heteroaryl iodides and α-chloronitriles has been developed. This method furnishes enantioenriched α,αdisubstituted nitriles from simple organohalide building blocks. The reaction tolerates a variety of heterocyclic coupling partners, including pyridines, pyrimidines, quinolines, thiophenes, and piperidines. The reaction proceeds under mild conditions at room temperature, and precludes the need to pre-generate organometallic nucleophiles.

In recent years, Ni-catalyzed reductive cross-coupling reactions have experienced a surge of development.1 These transformations forge C–C bonds between two organic electrophiles, employing a stoichiometric reductant (usually Zn0 or Mn0) to turn over the Ni catalyst. An appealing aspect of this chemistry is that sec-alkyl electrophiles are competent reaction partners,2 and in some cases, these reactions can be rendered enantioselective by use of an appropriate chiral ligand.3 However, the scope of C(sp3) electrophiles used in these asymmetric transformations has so far been limited to α-substituted benzyl chlorides. Moreover, the asymmetric cross-coupling of heteroaryl electrophiles – a substrate class that would be of high value for medicinal chemists4 – has proven challenging.5 In this communication, we report the Ni-catalyzed asymmetric reductive cross-coupling between α-chloronitriles and heteroaryl iodides, a reaction that provides access to a variety of enantioenriched heterocyclic products. In considering the development of new C(sp3) electrophiles for Ni-catalyzed reductive cross-coupling reactions, we became interested in the use of α-chloronitriles. Nitriles are valuable synthetic intermediates that serve as precursors to amines, carboxylic acids, carboxamides, aldehydes, ketones, and alcohols.6 The cyano group is also found in a number of natural products and medicinal compounds.7 However, there are few transition metal-catalyzed cross-

coupling methods to directly prepare enantioenriched α,αdisubstituted nitriles. In 2010, Falck and coworkers published a Pd-catalyzed stereospecific Suzuki cross-coupling of α-cyanohydrin triflates.8 Two years later, Fu and Choi reported a highly enantioselective Ni-catalyzed Negishi coupling between racemic α-bromonitriles and arylzinc reagents.9,10 However, neither report included heteroaryl nucleophiles as part of their substrate studies. Scheme 1. Transition metal-catalyzed cross-coupling reactions of α-cyano electrophiles. a) Pd-catalyzed stereospecific Suzuki cross-coupling of !-cyanohydrin triflates. (Falck, 2010) PdL 2Cl2 (5 mol %) KF (4 equiv)

CN + R 2B(OH) 2

R1

OTf

R = aryl

H 2O (4 equiv) PhMe, rt

R1

NMe 2

L:

CN

tBu

R

2P

b) Ni-catalyzed enantioselective Negishi cross-coupling of !-bromonitriles. (Fu, 2012) CN R1

NiCl 2(dme) (10 mol %) iPr( cPent)BOX (13 mol %)

+

Br

R 2Zn R = alkenyl or aryl

(±)

TMEDA (20 mol %) THF, –78 °C

CN O

O

R1

R

N

N

iPr

iPr

iPr( cPent)BOX

This work: Ni-catalyzed enantioselective reductive cross-coupling between !-chloronitriles and heteroaryl iodides. CN R1

Cl

CN

NiCl 2(dme) (10 mol %) DMMB-PhOX (20 mol %)

I +

Het

(±)

Mn 0, TMSCl (40 mol %) dioxane, rt

O

R1

Het

Ar2P

N

Bn

DMMB-PhOX

We envisioned that a Ni-catalyzed asymmetric reductive cross-coupling between α-chloronitriles and heteroaryl halides could provide access to a complementary scope of synthetically useful products. Furthermore, α-chloronitriles have not been developed as C(sp3) electrophiles for Nicatalyzed reductive cross-coupling reactions (even in the racemic sense).11 Thus, the successful development of this transformation would expand the scope of reductive crosscoupling reactions to new and synthetically versatile classes of electrophiles.

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Table 1. Optimization of reaction conditions.a CN Ph CN Ph

Cl

2

2

NiCl 2(dme) (10 mol % ) ligand (20 mol %)

I

+ N

1a

2

(1.0 equiv)

(1.0 equiv)

N

3a

+

Mn 0 (3.0 equiv) TMSCl (40 mol %) dioxane, rt, 14 h

CN Ph

H

2

4

Entrya Ligand

Deviation from Yield 3 Standard Conditions (%)b

Yield 4 (%)b

ee 3 (%)c

1

L6

None

78

20

84

2

L1

DMA instead of dioxane

0

62

--

3

L1

--